diff --git "a/arxiv_2023_3" "b/arxiv_2023_3" new file mode 100644--- /dev/null +++ "b/arxiv_2023_3" @@ -0,0 +1,1415 @@ +{"id":"2308.15497","submitter":"J\\'unior Diniz Toniato","authors":"Felipe S. Esc\\'orcio, J\\'ulio C. Fabris, J\\'unior D. Toniato, Hermano\n Velten","title":"Celestial mechanics in Newtonian-like gravity with variable $G$","comments":"11 pages, to be submitted to EPJP","journal-ref":null,"doi":null,"report-no":null,"categories":"gr-qc astro-ph.SR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" A Newtonian-like theory inspired by the Brans-Dicke gravitational Lagrangian\nhas been recently proposed in Ref. arXiv:2009.04434(v4). This work demonstrates\nthat the modified gravitational force acting on a test particle is analogous to\nthat derived from the Manev potential. Specifically, an additional term\n$\\propto r^{-3}$ emerges alongside the conventional Newtonian component. We\nanalyse the predicted expression for the pericenter advance and the Roche limit\nand use them to constraint the theory's single free parameter $\\omega$ which is\nanalogous to the Brans-Dicke parameter. At the same time this theory is able to\nsolve the advance of Mercury's perihelion, we also show that there is no\nrelevant impact on the Roche limit in comparison to the well known Newtonian\nresults.\n","versions":[{"version":"v1","created":"Mon, 28 Aug 2023 19:57:23 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Esc\u00f3rcio","Felipe S.",""],["Fabris","J\u00falio C.",""],["Toniato","J\u00fanior D.",""],["Velten","Hermano",""]]} +{"id":"2308.15498","submitter":"Bodo Billerbeck","authors":"David Hawking and Bodo Billerbeck","title":"Chunked Lists versus Extensible Arrays for Text Inversion","comments":"2 pages, 2 figures, 1 table","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In our 2017 work on in-memory list-based text inversion [Hawking and\nBillerbeck. Efficient In-Memory, List-Based Text Inversion. ADCS 2017] we\ncompared memory use and indexing speed of a considerable number of variants of\nchunked linked lists. In the present work we compare the best performing of\nthose variants (FBB - dynamic Fibonacci chunking) with the extensible SQ array\ntechnique (SQA) presented in [Moffat and Mackenzie. Immediate-Access Indexing\nUsing Space-Efficient Extensible Arrays. ADCS 2023].\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 02:42:52 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Hawking","David",""],["Billerbeck","Bodo",""]]} +{"id":"2308.15499","submitter":"Patrick M\\\"uller","authors":"Patrick M\\\"uller, Alexander Braun, Margret Keuper","title":"Classification robustness to common optical aberrations","comments":"ICCVW2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Computer vision using deep neural networks (DNNs) has brought about seminal\nchanges in people's lives. Applications range from automotive, face recognition\nin the security industry, to industrial process monitoring. In some cases, DNNs\ninfer even in safety-critical situations. Therefore, for practical\napplications, DNNs have to behave in a robust way to disturbances such as\nnoise, pixelation, or blur. Blur directly impacts the performance of DNNs,\nwhich are often approximated as a disk-shaped kernel to model defocus. However,\noptics suggests that there are different kernel shapes depending on wavelength\nand location caused by optical aberrations. In practice, as the optical quality\nof a lens decreases, such aberrations increase. This paper proposes\nOpticsBench, a benchmark for investigating robustness to realistic, practically\nrelevant optical blur effects. Each corruption represents an optical aberration\n(coma, astigmatism, spherical, trefoil) derived from Zernike Polynomials.\nExperiments on ImageNet show that for a variety of different pre-trained DNNs,\nthe performance varies strongly compared to disk-shaped kernels, indicating the\nnecessity of considering realistic image degradations. In addition, we show on\nImageNet-100 with OpticsAugment that robustness can be increased by using\noptical kernels as data augmentation. Compared to a conventionally trained\nResNeXt50, training with OpticsAugment achieves an average performance gain of\n21.7% points on OpticsBench and 6.8% points on 2D common corruptions.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 08:36:00 GMT"}],"update_date":"2023-08-31","authors_parsed":[["M\u00fcller","Patrick",""],["Braun","Alexander",""],["Keuper","Margret",""]]} +{"id":"2308.15500","submitter":"Niclas Hamann","authors":"Manuel Formela, Niclas Hamann, Gudrid Moortgat-Pick, Gregor Loisch,\n Kai Ludwig, Jens Osterhoff","title":"Plasma Lens Prototype Progress: Plasma Diagnostics And Particle Tracking\n For ILC e+ Source","comments":"LCWS23, SLAC, 3 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.acc-ph physics.plasm-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In recent years, the concept of high-gradient, symmetric focusing using\nactive plasma lenses has regained notable attention owing to its potential\nbenefits in terms of compactness and beam dynamics when juxtaposed with\ntraditional focusing elements. An enticing application lies in the optical\nmatching of extensively divergent positrons originating from the\nundulator-based ILC positron source, thereby enhancing the positron yield in\nsubsequent accelerating structures. Through a collaboration between the\nUniversity of Hamburg and DESY Hamburg, a scaled-down prototype for this\npurpose has been conceptualized and fabricated. In this presentation, we\nprovide an overview of the ongoing progress in the development of this\nprototype. Furthermore, first insights into the development of a particle\ntracking code especially designed for plasma lenses with implemented Bayes\noptimization, are given.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 09:33:12 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Formela","Manuel",""],["Hamann","Niclas",""],["Moortgat-Pick","Gudrid",""],["Loisch","Gregor",""],["Ludwig","Kai",""],["Osterhoff","Jens",""]]} +{"id":"2308.15501","submitter":"Xingming Bao","authors":"Xingming Bao, Jian Wang, Shuai Jing, Yuanyong Deng and Dongguang Wang","title":"The AIMS Site Survey","comments":"10 pages, 18 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.IM astro-ph.EP astro-ph.SR physics.ao-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This paper reports site survey results for the Infrared System for the\nAccurate Measurement of Solar Magnetic Field, especially in Saishiteng\nMountain, Qinghai, China. Since 2017, we have installed weather station,\nspectrometer for precipitable water vapor (PWV) and S-DIMM and carried out\nobservation on weather elements, precipitable water vapor and daytime seeing\ncondition for more than one year in almost all candidates. At Mt. Saishiteng,\nthe median value of daytime precipitable water vapor is 5.25 mm and its median\nvalue in winter season is 2.1 mm. The median value of Fried parameter of\ndaytime seeing observation at Saishiteng Mountain is 3.42 cm. Its solar direct\nradiation data shows that solar average observable time is 446 minutes per day\nand premium time is 401 minutes per day in August 2019.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 09:34:53 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Bao","Xingming",""],["Wang","Jian",""],["Jing","Shuai",""],["Deng","Yuanyong",""],["Wang","Dongguang",""]]} +{"id":"2308.15502","submitter":"Mark Stamp","authors":"Rishit Agrawal and Kelvin Jou and Tanush Obili and Daksh Parikh and\n Samarth Prajapati and Yash Seth and Charan Sridhar and Nathan Zhang and Mark\n Stamp","title":"On the Steganographic Capacity of Selected Learning Models","comments":"arXiv admin note: text overlap with arXiv:2306.17189","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.CR cs.MM","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Machine learning and deep learning models are potential vectors for various\nattack scenarios. For example, previous research has shown that malware can be\nhidden in deep learning models. Hiding information in a learning model can be\nviewed as a form of steganography. In this research, we consider the general\nquestion of the steganographic capacity of learning models. Specifically, for a\nwide range of models, we determine the number of low-order bits of the trained\nparameters that can be overwritten, without adversely affecting model\nperformance. For each model considered, we graph the accuracy as a function of\nthe number of low-order bits that have been overwritten, and for selected\nmodels, we also analyze the steganographic capacity of individual layers. The\nmodels that we test include the classic machine learning techniques of Linear\nRegression (LR) and Support Vector Machine (SVM); the popular general deep\nlearning models of Multilayer Perceptron (MLP) and Convolutional Neural Network\n(CNN); the highly-successful Recurrent Neural Network (RNN) architecture of\nLong Short-Term Memory (LSTM); the pre-trained transfer learning-based models\nVGG16, DenseNet121, InceptionV3, and Xception; and, finally, an Auxiliary\nClassifier Generative Adversarial Network (ACGAN). In all cases, we find that a\nmajority of the bits of each trained parameter can be overwritten before the\naccuracy degrades. Of the models tested, the steganographic capacity ranges\nfrom 7.04 KB for our LR experiments, to 44.74 MB for InceptionV3. We discuss\nthe implications of our results and consider possible avenues for further\nresearch.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 10:41:34 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Agrawal","Rishit",""],["Jou","Kelvin",""],["Obili","Tanush",""],["Parikh","Daksh",""],["Prajapati","Samarth",""],["Seth","Yash",""],["Sridhar","Charan",""],["Zhang","Nathan",""],["Stamp","Mark",""]]} +{"id":"2308.15503","submitter":"Javier LLorca","authors":"Yu-Yao Liu, Juan Pedro Fern\\'andez Bl\\'azquez, Guang-Zhong Yin, De-Yi\n Wang, Javier Llorca, Monica Echeverry-Rend\\'on","title":"A strategy to tailor the mechanical and degradation properties of\n PCL-PEG-PCL based copolymers for biomedical application","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.med-ph cond-mat.mtrl-sci","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Biodegradable and biocompatible 3D printable biomaterials with tunable\nmechanical properties and degradation rate adapted to target tissues were\nurgently required to manufacture scaffolds for tissue regeneration. Herein, a\nstrategy based on a series of copolymers are proposed where the mechanical and\ndegradation properties can be optimized regarding the specific biological\napplication. With this purpose, poly($\\epsilon$-caprolactone)-poly(ethylene\nglycol)-poly($\\epsilon$-caprolactone) (PCL-PEG-PCL, PCEC) triblock co-polymers\nwith high molecular weight were synthesized by using PEG with a wide range of\nmolecular weight (from 0.6 kg/mol to 35 kg/mol) as macroinitiators. PCEC\ncopolymers exhibited tunable mechanical properties with an elastic modulus in\nthe range 338-705 MPa and a degradation rate from 60% mass loss after 8 h to\n70% mass loss after 23 days in accelerated tests, as well as excellent\ncytocompatibility and cell attachment after culture with mouse fibroblast L929\ncells. The mechanisms responsible for these properties were ascertained by\nmeans of different techniques to ascertain the structure-property relationship\nin PCEC copolymers. Furthermore, it was shown that it is possible to\nmanufacture PCEC scaffolds by 3D printing with excellent dimensional accuracy\nand controlled microporosity. This study provides a promising strategy to\ndesign, select, and fabricate copolymers with tunable mechanical properties and\ndegradation rate for tissue engineering applications.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 11:40:22 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Liu","Yu-Yao",""],["Bl\u00e1zquez","Juan Pedro Fern\u00e1ndez",""],["Yin","Guang-Zhong",""],["Wang","De-Yi",""],["Llorca","Javier",""],["Echeverry-Rend\u00f3n","Monica",""]]} +{"id":"2308.15504","submitter":"Jesper Nielsen","authors":"Jesper Nielsen, Matthew Raymond Gent, Maria Bergemann, Philipp Eitner,\n Anders Johansen","title":"Planet formation throughout the Milky Way: Planet populations in the\n context of Galactic chemical evolution","comments":"21 pages, 16 figures, accepted in A&A","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.EP astro-ph.GA astro-ph.SR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" As stellar compositions evolve over time in the Milky Way, so will the\nresulting planet populations. In order to place planet formation in the context\nof Galactic chemical evolution, we make use of a large ($N = 5\\,325$) stellar\nsample representing the thin and thick discs, defined chemically, and the halo,\nand we simulate planet formation by pebble accretion around these stars. We\nbuild a chemical model of their protoplanetary discs, taking into account the\nrelevant chemical transitions between vapour and refractory minerals, in order\nto track the resulting compositions of formed planets. We find that the masses\nof our synthetic planets increase on average with increasing stellar\nmetallicity [Fe/H] and that giant planets and super-Earths are most common\naround thin-disc ($\\alpha$-poor) stars since these stars have an overall higher\nbudget of solid particles. Giant planets are found to be very rare\n($\\lesssim$1\\%) around thick-disc ($\\alpha$-rich) stars and nearly non-existent\naround halo stars. This indicates that the planet population is more diverse\nfor more metal-rich stars in the thin disc. Water-rich planets are less common\naround low-metallicity stars since their low metallicity prohibits efficient\ngrowth beyond the water ice line. If we allow water to oxidise iron in the\nprotoplanetary disc, this results in decreasing core mass fractions with\nincreasing [Fe/H]. Excluding iron oxidation from our condensation model instead\nresults in higher core mass fractions, in better agreement with the core-mass\nfraction of Earth, that increase with increasing [Fe/H]. Our work demonstrates\nhow the Galactic chemical evolution and stellar parameters, such as stellar\nmass and chemical composition, can shape the resulting planet population.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 11:58:57 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Nielsen","Jesper",""],["Gent","Matthew Raymond",""],["Bergemann","Maria",""],["Eitner","Philipp",""],["Johansen","Anders",""]]} +{"id":"2308.15505","submitter":"Pietro Corvaja","authors":"Pietro Corvaja, Umberto Zannier","title":"Examples of effectivity for integral points on certain curves of genus 2","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.NT","license":"http://creativecommons.org/publicdomain/zero/1.0/","abstract":" This short article concerns a method to obtain effectivity for the search of\nintegral points on certain (sets of) curves of genus 2. More precisely, we wish\nto illustrate just an example of application of a criterion of Bilu, to derive\neffectivity for integral points on certain families of affine curves of genus\n2. Future work, in collaboration with D. Lombardo, will contain details and\nmore general applications.\n We shall construct morphisms from these curves to $\\G_{\\rm m}^2$, with image\nof increasing degrees. We note that as the degree increases, we may say that\nthe examples become `more interesting', since they cannot be derived by\nsubstitution from a universal family. As a counterpart, there is the negative\nfeature in that the relevant curves will somewhat have increasing fields of\ndefinition.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 13:16:27 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Corvaja","Pietro",""],["Zannier","Umberto",""]]} +{"id":"2308.15506","submitter":"Rahul Maitra","authors":"Anish Chakraborty and Pradipta Kumar Samanta and Rahul Maitra","title":"Accurate determination of excitation energy: An equation-of-motion\n approach over a bi-exponential Coupled Cluster theory","comments":"14 pages, 1 Figure","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.chem-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The calculation of molecular excited states is critically important to\ndecipher a plethora of molecular properties. In this manuscript, we develop an\nequation of motion formalism on top of a bi-exponentially parametrized ground\nstate wavefunction towards the determination of excited states. While the\nground state bi-exponential parametrization ensures an accurate description of\nthe wavefunction through the inclusion of high-rank correlation effects, the\nexcited state is parametrized by a novel linear response operator with an\neffective excitation rank beyond two. In order to treat the ground and the\nexcited states in the same footings, in addition to the conventional one and\ntwo-body response operators, we introduced certain two-body \"generalized\"\nresponse operator with an effective excitation rank of one. We introduce a\nprojective formulation towards the determination of the perturbed amplitudes\nfor the set of \"generalized\" operators. Our formulation entails significantly\nsmall number of unknown parameters and is shown to be highly accurate compared\nto allied methods for a number of difficult chemical systems.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 13:26:46 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Chakraborty","Anish",""],["Samanta","Pradipta Kumar",""],["Maitra","Rahul",""]]} +{"id":"2308.15507","submitter":"Christian Ledig","authors":"Sebastian Doerrich, Francesco Di Salvo, Christian Ledig","title":"unORANIC: Unsupervised Orthogonalization of Anatomy and\n Image-Characteristic Features","comments":"to be published in International Workshop on Machine Learning in\n Medical Imaging (MLMI 2023)","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.IV cs.CV cs.LG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We introduce unORANIC, an unsupervised approach that uses an adapted loss\nfunction to drive the orthogonalization of anatomy and image-characteristic\nfeatures. The method is versatile for diverse modalities and tasks, as it does\nnot require domain knowledge, paired data samples, or labels. During test time\nunORANIC is applied to potentially corrupted images, orthogonalizing their\nanatomy and characteristic components, to subsequently reconstruct\ncorruption-free images, showing their domain-invariant anatomy only. This\nfeature orthogonalization further improves generalization and robustness\nagainst corruptions. We confirm this qualitatively and quantitatively on 5\ndistinct datasets by assessing unORANIC's classification accuracy, corruption\ndetection and revision capabilities. Our approach shows promise for enhancing\nthe generalizability and robustness of practical applications in medical image\nanalysis. The source code is available at\nhttps://github.com/sdoerrich97/unORANIC.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 13:37:13 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Doerrich","Sebastian",""],["Di Salvo","Francesco",""],["Ledig","Christian",""]]} +{"id":"2308.15508","submitter":"Shi Yin","authors":"Wei-jie Fu, Xiaofeng Luo, Jan M. Pawlowski, Fabian Rennecke, Shi Yin","title":"Ripples of the QCD Critical Point","comments":"7+7 pages, 12 figures, 2 tables","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph nucl-ex nucl-th","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We investigate the impact of a critical end point (CEP) on the experimentally\naccessible baryon number fluctuations of different orders. By now, its\npotential location has been constrained fairly accurately within first\nprinciples functional QCD, together with the location of the chiral crossover\nline and further thermodynamic observables. This information is incorporated in\nan advanced QCD-assisted low energy effective theory which is used for the\ncomputation of baryon number fluctuations at the chemical freeze-out. This\ncomputation also takes care of global baryon number conservation at larger\ndensity, where the system changes from grand-canonical to canonical statistics.\nWe observe a prominent peak structure, whose amplitude depends on the location\nof the CEP, while its position is more sensitive to the location of the\nfreeze-out curve. Our results provide guidance for future low energy heavy-ion\nexperiments.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 13:40:21 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Fu","Wei-jie",""],["Luo","Xiaofeng",""],["Pawlowski","Jan M.",""],["Rennecke","Fabian",""],["Yin","Shi",""]]} +{"id":"2308.15509","submitter":"Malik Qirtas","authors":"Malik Muhammad Qirtas, Evi Zafeiridi, Eleanor Bantry White and Dirk\n Pesch","title":"The Relationship between Loneliness and Depression among College\n Students: Mining data derived from Passive Sensing","comments":"N/A","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.HC","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Loneliness and depression are interrelated mental health issues affecting\nstudents well-being. Using passive sensing data provides a novel approach to\nexamine the granular behavioural indicators differentiating loneliness and\ndepression, and the mediators in their relationship. This study aimed to\ninvestigate associations between behavioural features and loneliness and\ndepression among students, exploring the complex relationships between these\nmental health conditions and associated behaviours. This study combined\nregression analysis, mediation analysis, and machine learning analysis to\nexplore relationships between behavioural features, loneliness, and depression\nusing passive sensing data, capturing daily life behaviours such as physical\nactivity, phone usage, sleep patterns, and social interactions. Results\nrevealed significant associations between behavioural features and loneliness\nand depression, emphasizing their interconnected nature. Increased activity and\nsleep duration were identified as protective factors. Distinct behavioural\nfeatures for each condition were also found. Mediation analysis highlighted\nsignificant indirect effects in the relationship between loneliness and\ndepression. The XGBoost model achieved the highest accuracy in predicting these\nconditions. This study demonstrated the importance of using passive sensing\ndata and a multi-method approach to understand the complex relationship between\nloneliness, depression, and associated behaviours. Identifying specific\nbehavioural features and mediators contributes to a deeper understanding of\nfactors influencing loneliness and depression among students. This\ncomprehensive perspective emphasizes the importance of interdisciplinary\ncollaboration for a more nuanced understanding of complex human experiences.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 14:20:18 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Qirtas","Malik Muhammad",""],["Zafeiridi","Evi",""],["White","Eleanor Bantry",""],["Pesch","Dirk",""]]} +{"id":"2308.15510","submitter":"Sonja Billerbeck","authors":"Min Lu and Sonja Billerbeck","title":"Improving homology-directed repair by small molecule agents for genetic\n engineering in unconventional yeast? -- Learning from the engineering of\n mammalian systems","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"q-bio.QM q-bio.BM","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The ability to precisely edit genomes by deleting or adding genetic\ninformation enables the study of biological functions and the building of\nefficient cell factories. In many unconventional yeasts, such as promising new\nhosts for cell factory design but also human pathogenic yeasts and food\nspoilers, this progress has been limited by the fact that most yeasts favor\nnon-homologous end joining (NHEJ) over homologous recombination (HR) as DNA\nrepair mechanism, impairing genetic access to these hosts. In mammalian cells,\nsmall molecules that either inhibit proteins involved in NHEJ, enhance protein\nfunction in HR, or molecules that arrest the cell cycle in HR-dominant phases\nare regarded as promising agents for the simple and transient increase of\nHR-mediated genome editing without the need for a priori host engineering. Only\na few of these chemicals have been applied to the engineering of yeast although\nthe targeted proteins are mostly conserved; making chemical agents a yet\nunderexplored area in enhancing yeast engineering. Here, we consolidate\nknowledge of available small molecules that have been used to improve HR\nefficiency in mammalian cells and the few ones that have been used in yeast. We\ninclude available high throughput (HTP)-compatible NHEJ/HR quantification\nassays that could be used to screen for and isolate yeast-specific inhibitors.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 14:26:13 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Lu","Min",""],["Billerbeck","Sonja",""]]} +{"id":"2308.15511","submitter":"Pierre Matet","authors":"Pierre Matet","title":"The pcf theory of non fixed points","comments":"arXiv admin note: text overlap with arXiv:2308.14467. text overlap\n with arXiv:2308.14779","journal-ref":null,"doi":null,"report-no":null,"categories":"math.LO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We deal with values taken by various pseudopower functions at a singular\ncardinal that is not a fixed point of the aleph function.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 14:49:05 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Matet","Pierre",""]]} +{"id":"2308.15512","submitter":"Dongwon Kim","authors":"Dongwon Kim, Namyup Kim, Cuiling Lan, Suha Kwak","title":"Shatter and Gather: Learning Referring Image Segmentation with Text\n Supervision","comments":"Accepted to ICCV 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Referring image segmentation, the task of segmenting any arbitrary entities\ndescribed in free-form texts, opens up a variety of vision applications.\nHowever, manual labeling of training data for this task is prohibitively\ncostly, leading to lack of labeled data for training. We address this issue by\na weakly supervised learning approach using text descriptions of training\nimages as the only source of supervision. To this end, we first present a new\nmodel that discovers semantic entities in input image and then combines such\nentities relevant to text query to predict the mask of the referent. We also\npresent a new loss function that allows the model to be trained without any\nfurther supervision. Our method was evaluated on four public benchmarks for\nreferring image segmentation, where it clearly outperformed the existing method\nfor the same task and recent open-vocabulary segmentation models on all the\nbenchmarks.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 15:39:15 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kim","Dongwon",""],["Kim","Namyup",""],["Lan","Cuiling",""],["Kwak","Suha",""]]} +{"id":"2308.15513","submitter":"Martin Skrodzki","authors":"Martin Skrodzki, Nicolas Chaves-de-Plaza, Klaus Hildebrandt, Thomas\n H\\\"ollt, Elmar Eisemann","title":"Tuning the perplexity for and computing sampling-based t-SNE embeddings","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI q-bio.QM stat.ML","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Widely used pipelines for the analysis of high-dimensional data utilize\ntwo-dimensional visualizations. These are created, e.g., via t-distributed\nstochastic neighbor embedding (t-SNE). When it comes to large data sets,\napplying these visualization techniques creates suboptimal embeddings, as the\nhyperparameters are not suitable for large data. Cranking up these parameters\nusually does not work as the computations become too expensive for practical\nworkflows. In this paper, we argue that a sampling-based embedding approach can\ncircumvent these problems. We show that hyperparameters must be chosen\ncarefully, depending on the sampling rate and the intended final embedding.\nFurther, we show how this approach speeds up the computation and increases the\nquality of the embeddings.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 16:24:11 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Skrodzki","Martin",""],["Chaves-de-Plaza","Nicolas",""],["Hildebrandt","Klaus",""],["H\u00f6llt","Thomas",""],["Eisemann","Elmar",""]]} +{"id":"2308.15514","submitter":"Robert Trager","authors":"Robert Trager, Ben Harack, Anka Reuel, Allison Carnegie, Lennart Heim,\n Lewis Ho, Sarah Kreps, Ranjit Lall, Owen Larter, Se\\'an \\'O h\\'Eigeartaigh,\n Simon Staffell, Jos\\'e Jaime Villalobos","title":"International Governance of Civilian AI: A Jurisdictional Certification\n Approach","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AI","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" This report describes trade-offs in the design of international governance\narrangements for civilian artificial intelligence (AI) and presents one\napproach in detail. This approach represents the extension of a standards,\nlicensing, and liability regime to the global level. We propose that states\nestablish an International AI Organization (IAIO) to certify state\njurisdictions (not firms or AI projects) for compliance with international\noversight standards. States can give force to these international standards by\nadopting regulations prohibiting the import of goods whose supply chains embody\nAI from non-IAIO-certified jurisdictions. This borrows attributes from models\nof existing international organizations, such as the International Civilian\nAviation Organization (ICAO), the International Maritime Organization (IMO),\nand the Financial Action Task Force (FATF). States can also adopt multilateral\ncontrols on the export of AI product inputs, such as specialized hardware, to\nnon-certified jurisdictions. Indeed, both the import and export standards could\nbe required for certification. As international actors reach consensus on risks\nof and minimum standards for advanced AI, a jurisdictional certification regime\ncould mitigate a broad range of potential harms, including threats to public\nsafety.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 16:43:59 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Trager","Robert",""],["Harack","Ben",""],["Reuel","Anka",""],["Carnegie","Allison",""],["Heim","Lennart",""],["Ho","Lewis",""],["Kreps","Sarah",""],["Lall","Ranjit",""],["Larter","Owen",""],["h\u00c9igeartaigh","Se\u00e1n \u00d3",""],["Staffell","Simon",""],["Villalobos","Jos\u00e9 Jaime",""]]} +{"id":"2308.15515","submitter":"Ernestine Grossmann","authors":"Jannick Borowitz, Ernestine Gro{\\ss}mann, Christian Schulz, Dominik\n Schweisgut","title":"Finding Optimal 2-Packing Sets on Arbitrary Graphs at Scale","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DS","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" A 2-packing set for an undirected graph $G=(V,E)$ is a subset $\\mathcal{S}\n\\subset V$ such that any two vertices $v_1,v_2 \\in \\mathcal{S}$ have no common\nneighbors. Finding a 2-packing set of maximum cardinality is a NP-hard problem.\nWe develop a new approach to solve this problem on arbitrary graphs using its\nclose relation to the independent set problem. Thereby, our algorithm red2pack\nuses new data reduction rules specific to the 2-packing set problem as well as\na graph transformation. Our experiments show that we outperform the\nstate-of-the-art for arbitrary graphs with respect to solution quality and also\nare able to compute solutions multiple orders of magnitude faster than\npreviously possible. For example, we are able to solve 63% of our graphs to\noptimality in less than a second while the competitor for arbitrary graphs can\nonly solve 5% of the graphs in the data set to optimality even with a 10 hour\ntime limit. Moreover, our approach can solve a wide range of large instances\nthat have previously been unsolved.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 16:45:30 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Borowitz","Jannick",""],["Gro\u00dfmann","Ernestine",""],["Schulz","Christian",""],["Schweisgut","Dominik",""]]} +{"id":"2308.15516","submitter":"Xingbo Wei","authors":"Xingbo Wei, Liangqing Wu, Kewei Feng, Tong Liu, Yunbo Zhang","title":"Exact mobility edges in finite-height Wannier-Stark ladders","comments":"7 pages, 6 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.dis-nn","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We investigate the single-particle localization transition in one-dimensional\nWannier-Stark ladders with either a linear potential or a mosaic potential with\nspacing $\\kappa=2$. In both cases, we exactly determine the mobility edges\nseparating the Wannier-Stark localized states from extended states for a finite\npotential height. Especially in the latter case, we obtain mobility edges\nthrough a revised Lyapunov exponent, and demonstrate a rich phase diagram with\nextended states, weakly Wannier-Stark localized states, and strongly\nWannier-Stark localized states. Our results also exhibit that mobility edges\nare highly dependent on the height of the ladder and extended states only\nsurvive at $E\\approx0$ for the high ladder. Finally, we perform the simulation\nof the dynamical evolution for possible experimental observations. These\ninteresting features will shed light on the study of localization phenomena in\ndisorder-free systems.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 16:55:40 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Wei","Xingbo",""],["Wu","Liangqing",""],["Feng","Kewei",""],["Liu","Tong",""],["Zhang","Yunbo",""]]} +{"id":"2308.15517","submitter":"Sotirios Kastanas","authors":"Sotirios Kastanas, Shaomu Tan, Yi He","title":"Document AI: A Comparative Study of Transformer-Based, Graph-Based\n Models, and Convolutional Neural Networks For Document Layout Analysis","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL cs.CV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Document AI aims to automatically analyze documents by leveraging natural\nlanguage processing and computer vision techniques. One of the major tasks of\nDocument AI is document layout analysis, which structures document pages by\ninterpreting the content and spatial relationships of layout, image, and text.\nThis task can be image-centric, wherein the aim is to identify and label\nvarious regions such as authors and paragraphs, or text-centric, where the\nfocus is on classifying individual words in a document. Although there are\nincreasingly sophisticated methods for improving layout analysis, doubts remain\nabout the extent to which their findings can be generalized to a broader\ncontext. Specifically, prior work developed systems based on very different\narchitectures, such as transformer-based, graph-based, and CNNs. However, no\nwork has mentioned the effectiveness of these models in a comparative analysis.\nMoreover, while language-independent Document AI models capable of knowledge\ntransfer have been developed, it remains to be investigated to what degree they\ncan effectively transfer knowledge. In this study, we aim to fill these gaps by\nconducting a comparative evaluation of state-of-the-art models in document\nlayout analysis and investigating the potential of cross-lingual layout\nanalysis by utilizing machine translation techniques.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 16:58:03 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kastanas","Sotirios",""],["Tan","Shaomu",""],["He","Yi",""]]} +{"id":"2308.15518","submitter":"Joseph Lazio","authors":"T. Joseph W. Lazio, S. G. Djorgovski, Andrew Howard, Curt Cutler,\n Sofia Z. Sheikh, Stefano Cavuoti, Denise Herzing, Kiri Wagstaff, Jason T.\n Wright, Vishal Gajjar, Kevin Hand, Umaa Rebbapragada, Bruce Allen, Erica\n Cartmill, Jacob Foster, Dawn Gelino, Matthew J. Graham, Giuseppe Longo,\n Ashish A. Mahabal, Lior Pachter, Vikram Ravi, Gerald Sussman","title":"Data-Driven Approaches to Searches for the Technosignatures of Advanced\n Civilizations","comments":"Final Report prepared for the W. M. Keck Institute for Space Studies\n (KISS),\n http://kiss.caltech.edu/workshops/technosignatures/technosignatures.html ;\n eds. Lazio, Djorgovski, Howard, & Cutler; The study leads gratefully\n acknowledge the outstanding support of Michele Judd, KISS Executive Director,\n and her dedicated staff, who made the study experience invigorating and\n enormously productive","journal-ref":null,"doi":"10.26206/gvmj-sn65","report-no":null,"categories":"astro-ph.IM astro-ph.EP physics.pop-ph","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" Humanity has wondered whether we are alone for millennia. The discovery of\nlife elsewhere in the Universe, particularly intelligent life, would have\nprofound effects, comparable to those of recognizing that the Earth is not the\ncenter of the Universe and that humans evolved from previous species. There has\nbeen rapid growth in the fields of extrasolar planets and data-driven\nastronomy. In a relatively short interval, we have seen a change from knowing\nof no extrasolar planets to now knowing more potentially habitable extrasolar\nplanets than there are planets in the Solar System. In approximately the same\ninterval, astronomy has transitioned to a field in which sky surveys can\ngenerate 1 PB or more of data. The Data-Driven Approaches to Searches for the\nTechnosignatures of Advanced Civilizations_ study at the W. M. Keck Institute\nfor Space Studies was intended to revisit searches for evidence of alien\ntechnologies in light of these developments. Data-driven searches, being able\nto process volumes of data much greater than a human could, and in a\nreproducible manner, can identify *anomalies* that could be clues to the\npresence of technosignatures. A key outcome of this workshop was that\ntechnosignature searches should be conducted in a manner consistent with\nFreeman Dyson's \"First Law of SETI Investigations,\" namely \"every search for\nalien civilizations should be planned to give interesting results even when no\naliens are discovered.\" This approach to technosignatures is commensurate with\nNASA's approach to biosignatures in that no single observation or measurement\ncan be taken as providing full certainty for the detection of life. Areas of\nparticular promise identified during the workshop were (*) Data Mining of Large\nSky Surveys, (*) All-Sky Survey at Far-Infrared Wavelengths, (*) Surveys with\nRadio Astronomical Interferometers, and (*) Artifacts in the Solar System.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 17:29:59 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Lazio","T. Joseph W.",""],["Djorgovski","S. G.",""],["Howard","Andrew",""],["Cutler","Curt",""],["Sheikh","Sofia Z.",""],["Cavuoti","Stefano",""],["Herzing","Denise",""],["Wagstaff","Kiri",""],["Wright","Jason T.",""],["Gajjar","Vishal",""],["Hand","Kevin",""],["Rebbapragada","Umaa",""],["Allen","Bruce",""],["Cartmill","Erica",""],["Foster","Jacob",""],["Gelino","Dawn",""],["Graham","Matthew J.",""],["Longo","Giuseppe",""],["Mahabal","Ashish A.",""],["Pachter","Lior",""],["Ravi","Vikram",""],["Sussman","Gerald",""]]} +{"id":"2308.15519","submitter":"Luca Smaldone Ph.D","authors":"Alfredo Iorio and Luca Smaldone","title":"Quantum black holes as classical space factories","comments":null,"journal-ref":"International Journal of Modern Physics D, Vol. 32, No. 10,\n 2350063 (2023)","doi":"10.1142/S0218271823500633","report-no":null,"categories":"physics.gen-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Space and matter may both be manifestations of a single fundamental quantum\ndynamics, as it may become evident during black-hole evaporation. Inspired by\nthe fact that quantum electrodynamics underlies the classical theory of\nelasticity, that in turn has a natural and well-known geometric description in\nterms of curvature and torsion, related to topological defects, here we move\nsome necessary steps to find the map from such fundamental quantum level to the\nemergent level of classical space and quantum matter. We proceed by adapting\nthe boson transformation method of standard quantum field theory to the quantum\ngravity fundamental scenario and successfully obtain the emergence of curvature\nand torsion, our main focus here. In doing so, we have been able to overcome\ndifficult issues of interpretation, related to the Goldstone modes for\nrotational symmetry. In fact, we have been able to apply the boson\ntransformation method to disclinations, to relate them to the spin structure\nand to give an heuristic derivation of the matter field equation on curved\nspace. We also improve results of previous work on the emergence of geometric\ntensors from elasticity theory, as the non-Abelian contributions to the torsion\nand curvature tensors, postulated in those papers, here emerge naturally. More\nwork is necessary to identify the type of gravity theories one can obtain in\nthis way.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 17:57:10 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Iorio","Alfredo",""],["Smaldone","Luca",""]]} +{"id":"2308.15520","submitter":"Jahan Claes","authors":"Argyris Giannisis Manes and Jahan Claes","title":"Distance-preserving stabilizer measurements in hypergraph product codes","comments":"5 pages plus references, comments welcome","journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Unlike the surface code, quantum low-density parity-check (QLDPC) codes can\nhave a finite encoding rate, potentially lowering the error correction\noverhead. However, finite-rate QLDPC codes have nonlocal stabilizers, making it\ndifficult to design stabilizer measurement circuits that are low-depth and do\nnot decrease the effective distance. Here, we demonstrate that a popular family\nof finite-rate QLDPC codes, hypergraph product codes, has the convenient\nproperty of distance-robustness: any stabilizer measurement circuit preserves\nthe effective distance. In particular, we prove the depth-optimal circuit in\n[Tremblay et al, PRL 129, 050504 (2022)] is also optimal in terms of effective\ndistance.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:00:00 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Manes","Argyris Giannisis",""],["Claes","Jahan",""]]} +{"id":"2308.15521","submitter":"Yan Gong","authors":"Y. Gong, F.J. Du, C. Henkel, A.M. Jacob, A. Belloche, J.Z. Wang, K.M.\n Menten, W. Yang, D.H. Quan, C.T. Bop, G.N. Ortiz-Le\\'on, X.D. Tang, M.R.\n Rugel, S. Liu","title":"Protonated hydrogen cyanide as a tracer of pristine molecular gas","comments":"25 pages, 26 figures, accepted for publication in A&A","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Protonated hydrogen cyanide, HCNH$^{+}$, plays a fundamental role in\nastrochemistry because it is an intermediary in gas-phase ion-neutral reactions\nwithin cold molecular clouds. However, the impact of the environment on the\nchemistry of HCNH$^{+}$ remains poorly understood. With the IRAM-30 m and\nAPEX-12 m observations, we report the first robust distribution of HCNH$^{+}$\nin the Serpens filament and in Serpens South. Our data suggest that HCNH$^{+}$\nis abundant in cold and quiescent regions, but is deficit in active\nstar-forming regions. The observed HCNH$^{+}$ fractional abundances relative to\nH$_{2}$ range from $3.1\\times 10^{-11}$ in protostellar cores to $5.9\\times\n10^{-10}$ in prestellar cores, and the HCNH$^{+}$ abundance generally decreases\nwith increasing H$_{2}$ column density, which suggests that HCNH$^{+}$\ncoevolves with cloud cores. Our observations and modeling results suggest that\nthe abundance of HCNH$^{+}$ in cold molecular clouds is strongly dependent on\nthe H$_{2}$ number density. The decrease in the abundance of HCNH$^{+}$ is\ncaused by the fact that its main precursors (e.g., HCN and HNC) undergo\nfreeze-out as the number density of H$_{2}$ increases. However, current\nchemical models cannot explain other observed trends, such as the fact that the\nabundance of HCNH$^{+}$ shows an anti-correlation with that of HCN and HNC, but\na positive correlation with that of N$_{2}$H$^{+}$ in the southern part of the\nSerpens South northern clump. This indicates that additional chemical pathways\nhave to be invoked for the formation of HCNH$^{+}$ via molecules like N$_{2}$\nin regions in which HCN and HNC freeze out. Both the fact that HCNH$^{+}$ is\nmost abundant in molecular cores prior to gravitational collapse and the fact\nthat low-$J$ HCNH$^{+}$ transitions have very low H$_{2}$ critical densities\nmake this molecular ion an excellent probe of pristine molecular gas.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:00:00 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Gong","Y.",""],["Du","F. J.",""],["Henkel","C.",""],["Jacob","A. M.",""],["Belloche","A.",""],["Wang","J. Z.",""],["Menten","K. M.",""],["Yang","W.",""],["Quan","D. H.",""],["Bop","C. T.",""],["Ortiz-Le\u00f3n","G. N.",""],["Tang","X. D.",""],["Rugel","M. R.",""],["Liu","S.",""]]} +{"id":"2308.15522","submitter":"Yuber F. Perez-Gonzalez","authors":"Marcos M. Flores, Alexander Kusenko, Lauren Pearce, Yuber F.\n Perez-Gonzalez, Graham White","title":"Testing high scale supersymmetry via second order gravitational waves","comments":"9 pages, 3 figures","journal-ref":null,"doi":null,"report-no":"IPMU23-0028, IPPP/23/48","categories":"hep-ph astro-ph.CO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Supersymmetry predicts multiple flat directions, some of which carry a net\nbaryon or lepton number. Condensates in such directions form during inflation\nand later fragment into Q-balls, which can become the building blocks of\nprimordial black holes. Thus supersymmetry can create conditions for an\nintermediate matter-dominated era with black holes dominating the energy\ndensity of the universe. Unlike particle matter, black holes decay suddenly\nenough to result in an observable gravitational wave signal via the poltergeist\nmechanism. We investigate the gravitational waves signatures of supersymmetry\nrealized at energy scales that might not be accessible to present-day\ncolliders.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:00:00 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Flores","Marcos M.",""],["Kusenko","Alexander",""],["Pearce","Lauren",""],["Perez-Gonzalez","Yuber F.",""],["White","Graham",""]]} +{"id":"2308.15523","submitter":"Jabir Ali Ouassou","authors":"Jabir Ali Ouassou, Takehito Yokoyama, and Jacob Linder","title":"RKKY interaction in triplet superconductors: Dzyaloshinskii-Moriya-type\n interaction mediated by spin-polarized Cooper pairs","comments":"16 pages (including 7 figures, 3 appendices, and references)","journal-ref":null,"doi":null,"report-no":"QuSpin 2023","categories":"cond-mat.supr-con cond-mat.mes-hall","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The Ruderman-Kittel-Kasuya-Yosida (RKKY) interaction governs the coupling\nbetween localized spins and is strongly affected by the environment in which\nthese spins reside. In superconductors, this interaction becomes long-ranged\nand provides information about the orbital symmetry of the superconducting\norder parameter. In this work, we consider the RKKY interaction between\nlocalized spins mediated by a $p$-wave triplet superconductor. In contrast to\nthe well-studied RKKY interaction in $d$-wave superconductors, we find that the\nspin of the Cooper pair in a triplet state also modulates the spin-spin\ncoupling. We consider several different types of $p$-wave triplet states, and\nfind that the form of the RKKY interaction changes significantly with the\nsymmetries of the order parameter. For non-unitary superconducting states, two\nnew terms appear in the RKKY interaction: a background spin magnetization\ncoupling to the individual spins and, more interestingly, an effective\nDzyaloshinskii-Moriya term. The latter term oscillates with the separation\ndistance between the impurity spins. Finally, we find that the finite spin\nexpectation value in non-unitary superconductors in concert with the\nconventional RKKY interaction can lead to non-collinear magnetic ground states\neven when the Dzyaloshinskii-Moriya term is negligible. The RKKY interaction in\n$p$-wave triplet superconductors thus offers a way to achieve new ground state\nspin configurations of impurity spins and simultaneously provides information\nabout the underlying superconducting state.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:00:00 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Ouassou","Jabir Ali",""],["Yokoyama","Takehito",""],["Linder","Jacob",""]]} +{"id":"2308.15524","submitter":"Noah Steinberg","authors":"Minerba Betancourt, Steven Gardiner, Noemi Rocco, Noah Steinberg","title":"Interfacing Electron and Neutrino Quasielastic Scattering Cross Sections\n with the Spectral Function in GENIE","comments":"10 pages, 9 figures","journal-ref":null,"doi":null,"report-no":"FERMILAB-PUB-23-458-CSAID-N","categories":"nucl-th","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Progress in neutrino-nucleus cross section models is being driven by the need\nfor highly accurate predictions for the neutrino oscillation community. These\nsophisticated models are being developed within a microscopic description of\nthe nucleus with the goal of encompassing all reaction modes relevant for the\naccelerator neutrino program. The disconnect between these microscopic models\nand the event generators that will be used in the next generation of\nexperiments represents a critical obstacle that must be overcome in order to\nprecisely measure the neutrino oscillation parameters. To this end we have\ndeveloped a Fortran wrapper for lepton-nucleus quasielastic (QE) scattering\nwithin the GENIE event generator as a proof of principle, with the broader goal\nof creating an efficient pipeline for incorporating advanced theoretical models\nin event generators. As a demonstration of this interface, we have implemented\nthe Spectral Function model into GENIE, offering a more complete description of\nthe nuclear ground state, as well as the ability to provide quantifiable\ntheoretical uncertainties. We validate this implementation and compare its\npredictions against data and against QE models already available in GENIE.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:00:01 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Betancourt","Minerba",""],["Gardiner","Steven",""],["Rocco","Noemi",""],["Steinberg","Noah",""]]} +{"id":"2308.15525","submitter":"Andreas Schachner","authors":"Sven Krippendorf and Andreas Schachner","title":"New non-supersymmetric flux vacua in string theory","comments":"10 pages, 4 figures","journal-ref":null,"doi":null,"report-no":"LMU-ASC 30/23","categories":"hep-th","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this note we construct large ensembles of supersymmetry breaking solutions\narising in the context of flux compactifications of type IIB string theory.\nThis class of solutions was previously proposed in arXiv:hep-th/0402135 for\nwhich we provide the first explicit examples in Calabi-Yau orientifold\ncompactifications with discrete fluxes below their respective tadpole\nconstraint. As a proof of concept, we study the degree 18 hypersurface in\nweighted projective space $\\mathbb{CP}_{1,1,1,6,9}$. Furthermore, we look at 10\nadditional orientifolds with $h^{1,2}=2,3$. We find several flux vacua with\nhierarchical suppression of the vacuum energy with respect to the gravitino\nmass. These solutions provide a crucial stepping stone for the construction of\nexplicit de Sitter vacua in string theory. Lastly, we also report the\ndifference in the distribution of $W_0$ between supersymmetric and\nnon-supersymmetric minima.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:00:01 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Krippendorf","Sven",""],["Schachner","Andreas",""]]} +{"id":"2308.15526","submitter":"Lijie Ding","authors":"Lijie Ding, Robert A. Pelcovits, Thomas R. Powers","title":"Chiral fluid membranes with orientational order and multiple edges","comments":"12 pages, 13 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.soft","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We carry out Monte Carlo simulations on fluid membranes with orientational\norder and multiple edges in the presence and absence of external forces. The\nmembrane resists bending and has an edge tension, the orientational order\ncouples with the membrane surface normal through a cost for tilting, and there\nis a chiral liquid crystalline interaction. In the absence of external forces,\na membrane initialized as a vesicle will form a disk at low chirality, with the\ndirectors forming a smectic-A phase with alignment perpendicular to the\nmembrane surface except near the edge. At large chirality a catenoid-like shape\nor a trinoid-like shape is formed, depending on the number of edges in the\ninitial vesicle. This shape change is accompanied by cholesteric ordering of\nthe directors and multiple $\\pi$ walls connecting the membrane edges and\nwrapping around the membrane neck. If the membrane is initialized instead in a\ncylindrical shape and stretched by an external force, it maintains a nearly\ncylindrical shape but additional liquid crystalline phases appear. For large\ntilt coupling and low chirality, a smectic-A phase forms. For lower values of\nthe tilt coupling, a nematic phase appears at zero chirality with the average\ndirector oriented perpendicular to the long axis of the membrane, while for\nnonzero chirality a cholesteric phase appears. The $\\pi$ walls are tilt walls\nat low chirality and transition to twist walls as chirality is increased. We\nconstruct a continuum model of the director field to explain this behavior.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:00:02 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Ding","Lijie",""],["Pelcovits","Robert A.",""],["Powers","Thomas R.",""]]} +{"id":"2308.15527","submitter":"Tyler Holland-Ashford","authors":"Tyler Holland-Ashford, Patrick Slane, Laura A. Lopez, Katie Auchettl,\n Vinay Kashyap","title":"Estimating Ejecta Mass Ratios in Kepler's SNR: Global X-Ray Spectral\n Analysis Including Suzaku Systematics and Emitting Volume Uncertainties","comments":"25 pages, 12 figures, 4 tables","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.HE","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The exact origins of many Type Ia supernovae$\\unicode{x2013}$progenitor\nscenarios and explosive mechanisms$\\unicode{x2013}$remain uncertain. In this\nwork, we analyze the global Suzaku X-Ray spectrum of Kepler's supernova remnant\nin order to constrain mass ratios of various ejecta species synthesized during\nexplosion. Critically, we account for the Suzaku telescope effective area\ncalibration uncertainties of 5$\\unicode{x2013}$20% by generating 100 mock\neffective area curves and using Markov Chain Monte Carlo based spectral fitting\nto produce 100 sets of best-fit parameter values. Additionally, we characterize\nthe uncertainties from assumptions made about the emitting volumes of each\nmodel plasma component: finding that these uncertainties can be the dominant\nsource of error. We then compare our calculated mass ratios to previous\nobservational studies of Kepler's SNR and to the predictions of SN Ia\nsimulations. Our mass ratio estimates require a $\\sim$90% attenuated\n$^{12}$C$+^{16}$O reaction rate and are potentially consistent with both near-\nand sub-M$_{\\rm Ch}$ progenitors, but are inconsistent with the dynamically\nstable double detonation origin scenario and only marginally consistent with\nthe dynamically unstable dynamically-driven double-degenerate double detonation\n(D$^6$) scenario.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:00:02 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Holland-Ashford","Tyler",""],["Slane","Patrick",""],["Lopez","Laura A.",""],["Auchettl","Katie",""],["Kashyap","Vinay",""]]} +{"id":"2308.15528","submitter":"Kensuke Gallock-Yoshimura","authors":"Kensuke Gallock-Yoshimura and Vaishant Thakur and Robert B. Mann","title":"Quantum Otto engine driven by quantum fields","comments":"21 pages, 7 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"gr-qc hep-th quant-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We consider a quantum Otto engine using an Unruh-DeWitt particle detector\nmodel which interacts with a quantum scalar field in curved spacetime. We\nexpress a generic condition for extracting positive work in terms of the\neffective temperature of the detector. This condition reduces to the well-known\npositive work condition in the literature under the circumstances where the\ndetector reaches thermal equilibrium with the field. We then evaluate the\namount of work extracted by the detector in two scenarios: an inertial detector\nin a thermal bath and a circulating detector in the Minkowski vacuum, which is\ninspired by the Unruh quantum Otto engine.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:00:02 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Gallock-Yoshimura","Kensuke",""],["Thakur","Vaishant",""],["Mann","Robert B.",""]]} +{"id":"2308.15529","submitter":"Pramod Shukla","authors":"George K. Leontaris, Pramod Shukla","title":"Taxonomy of scalar potential with U-dual fluxes","comments":"51 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-th","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In the context of $N =1$ four-dimensional type IIB supergravity theories, the\nU-dual completion arguments suggest to include four \"S-dual\" pairs of fluxes in\nthe holomorphic superpotential, namely the so-called $(F, \\, H), \\, (Q, \\, P),\n\\, (P^\\prime, Q^\\prime)$ and $(H^\\prime, \\, F^\\prime)$. These can generically\ninduce cubic polynomials for the complex-structure moduli as well as the\nK\\\"ahler-moduli in the flux superpotential. In this article, we explore the\ninsights of the four-dimensional non-geometric scalar potential in the presence\nof such generalized U-dual fluxes by considering an explicit type IIB toroidal\ncompactification model based on an orientifold of ${\\mathbb T}^6/({\\mathbb Z}_2\n\\times {\\mathbb Z}_2)$ orbifold. First, we observe that the flux superpotential\ninduces a huge scalar potential having a total of 76276 terms involving 128\nflux parameters and 14 real scalars. Subsequently, we invoke a new set of (the\nso-called) \"axionic fluxes\" comprising combinations of the standard fluxes and\nthe RR axions, and it turns out that these axionic fluxes can be very useful in\nrewriting the scalar potential in a relatively compact form. In this regard,\nusing the metric of the compactifying toroidal sixfold, we present a new\nformulation of the effective scalar potential, which might be useful for\nunderstanding the higher-dimensional origin of the various pieces via the\nso-called \"dimensional oxidation\" process. We also discuss the generalized\nBianchi identities and the tadpole cancellation conditions, which can be\nimportant while seeking the physical (AdS/dS) vacua in such models.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:00:02 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Leontaris","George K.",""],["Shukla","Pramod",""]]} +{"id":"2308.15530","submitter":"Michael Zevin","authors":"Michael Zevin, Corey B. Jackson, Zoheyr Doctor, Yunan Wu, Carsten\n {\\O}sterlund, L. Clifton Johnson, Christopher P. L. Berry, Kevin Crowston,\n Scott B. Coughlin, Vicky Kalogera, Sharan Banagiri, Derek Davis, Jane\n Glanzer, Renzhi Hao, Aggelos K. Katsaggelos, Oli Patane, Jennifer Sanchez,\n Joshua Smith, Siddharth Soni, Laura Trouille, Marissa Walker, Irina Aerith,\n Wilfried Domainko, Victor-Georges Baranowski, Gerhard Niklasch, Barbara\n T\\'egl\\'as","title":"Gravity Spy: Lessons Learned and a Path Forward","comments":"32 pages, 5 figures, submitted to European Physical Journal Plus for\n focus issue on \"Citizen science for physics: From Education and Outreach to\n Crowdsourcing fundamental research\"","journal-ref":null,"doi":null,"report-no":null,"categories":"gr-qc astro-ph.IM physics.soc-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The Gravity Spy project aims to uncover the origins of glitches, transient\nbursts of noise that hamper analysis of gravitational-wave data. By using both\nthe work of citizen-science volunteers and machine-learning algorithms, the\nGravity Spy project enables reliable classification of glitches. Citizen\nscience and machine learning are intrinsically coupled within the Gravity Spy\nframework, with machine-learning classifications providing a rapid first-pass\nclassification of the dataset and enabling tiered volunteer training, and\nvolunteer-based classifications verifying the machine classifications,\nbolstering the machine-learning training set and identifying new morphological\nclasses of glitches. These classifications are now routinely used in studies\ncharacterizing the performance of the LIGO gravitational-wave detectors.\nProviding the volunteers with a training framework that teaches them to\nclassify a wide range of glitches, as well as additional tools to aid their\ninvestigations of interesting glitches, empowers them to make discoveries of\nnew classes of glitches. This demonstrates that, when giving suitable support,\nvolunteers can go beyond simple classification tasks to identify new features\nin data at a level comparable to domain experts. The Gravity Spy project is now\nproviding volunteers with more complicated data that includes auxiliary\nmonitors of the detector to identify the root cause of glitches.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:00:03 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zevin","Michael",""],["Jackson","Corey B.",""],["Doctor","Zoheyr",""],["Wu","Yunan",""],["\u00d8sterlund","Carsten",""],["Johnson","L. Clifton",""],["Berry","Christopher P. L.",""],["Crowston","Kevin",""],["Coughlin","Scott B.",""],["Kalogera","Vicky",""],["Banagiri","Sharan",""],["Davis","Derek",""],["Glanzer","Jane",""],["Hao","Renzhi",""],["Katsaggelos","Aggelos K.",""],["Patane","Oli",""],["Sanchez","Jennifer",""],["Smith","Joshua",""],["Soni","Siddharth",""],["Trouille","Laura",""],["Walker","Marissa",""],["Aerith","Irina",""],["Domainko","Wilfried",""],["Baranowski","Victor-Georges",""],["Niklasch","Gerhard",""],["T\u00e9gl\u00e1s","Barbara",""]]} +{"id":"2308.15531","submitter":"Diego Aristizabal","authors":"D. Aristizabal Sierra, S. Gariazzo, A. Villanueva","title":"Non-standard cosmic expansion histories: Neutrino decoupling and\n primordial nucleosynthesis signatures","comments":"13 pages, 7 figures, 2 tables","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.CO hep-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Cosmological scenarios with a non-standard equation of state can involve\nultrastiff fluids, understood as primordial fluids for which $p/\\rho> 1$. Their\nenergy densities can dominate the Universe energy budget at early times, in the\notherwise radiation dominated epoch. During that period the Universe undergoes\na faster expansion, that has implications for any decoupling process that takes\nplace in that era. Quintessence models or Ekpyrotic cosmologies are good\nexamples of such scenarios. Assuming the ultrastiff state to be thermally\ndecoupled at very early times, if ever coupled, its observational imprints are\nleft solely in the Universe expansion rate and in the radiation energy density.\nWe consider a complete set of ultrastiff fluids and study their signatures in\nthe neutrino decoupling and BBN eras. Measurements of $N_\\text{eff}$ alone\nplace mild constraints on these scenarios, with forthcoming measurements from\nthe Simons Observatory in the Chilean Atacama desert being able to test regions\nwhere still sizable effects are observable. However, when BBN data is taken\ninto account, those regions are proven to be barely reconcilable with\nprimordial helium-4 and deuterium abundances measurements. Our findings show\nthat measurements of the primordial helium-4 abundance imply the tightest\nconstraints, with measurements of primordial deuterium being -- to a certain\nextent -- competitive as well. We point out that a $\\sim 60\\%$ improvement on\nthe statistical uncertainty of the primordial helium-4 abundance measurement,\nwill test these scenarios in the region where they can produce sizable effects.\nBeyond that precision the regions that are accessible degenerate with standard\nexpectations. In that case, although potentially present, neither neutrino\ndecoupling nor BBN observables will be sensitive probes.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:00:03 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Sierra","D. Aristizabal",""],["Gariazzo","S.",""],["Villanueva","A.",""]]} +{"id":"2308.15532","submitter":"Noa Feldman","authors":"Noa Feldman, Niv Davidson, Moshe Goldstein","title":"Information Bounds on phase transitions in disordered systems","comments":"9 pages, 2 figures, comments are welcome","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.dis-nn cond-mat.stat-mech quant-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Information theory, rooted in computer science, and many-body physics, have\ntraditionally been studied as (almost) independent fields. Only recently has\nthis paradigm started to shift, with many-body physics being studied and\ncharacterized using tools developed in information theory. In our work, we\nintroduce a new perspective on this connection, and study phase transitions in\nmodels with randomness, such as localization in disordered systems, or random\nquantum circuits with measurements. Utilizing information-based arguments\nregarding probability distribution differentiation, we bound critical exponents\nin such phase transitions (specifically, those controlling the correlation or\nlocalization lengths). We benchmark our method and rederive the well-known\nHarris criterion, bounding critical exponents in the Anderson localization\ntransition for noninteracting particles, as well as classical disordered spin\nsystems. We then move on to apply our method to many-body localization. While\nin real space our critical exponent bound agrees with recent consensus, we find\nthat, somewhat surprisingly, numerical results on Fock-space localization for\nlimited-sized systems do not obey our bounds, indicating that the simulation\nresults might not hold asymptotically (similarly to what is now believed to\nhave occurred in the real-space problem). We also apply our approach to random\nquantum circuits with random measurements, for which we can derive bounds\ntranscending recent mappings to percolation problems.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:00:07 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Feldman","Noa",""],["Davidson","Niv",""],["Goldstein","Moshe",""]]} +{"id":"2308.15533","submitter":"Valerio Peri","authors":"Valerio Peri, Shahal Ilani, Patrick A. Lee, Gil Refael","title":"Probing quantum spin liquids with a quantum twisting microscope","comments":"18 pages, 3 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.str-el cond-mat.mes-hall","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The experimental characterization of quantum spin liquids poses significant\nchallenges due to the absence of long-range magnetic order, even at absolute\nzero temperature. The identification of these states of matter often relies on\nthe analysis of their excitations. In this paper, we propose a method for\ndetecting the signatures of the fractionalized excitations in quantum spin\nliquids using a tunneling spectroscopy setup. Inspired by the recent\ndevelopment of the quantum twisting microscope, we consider a planar tunneling\njunction, in which a candidate quantum spin liquid material is placed between\ntwo graphene layers. By tuning the relative twist angle and voltage bias\nbetween the leads, we can extract the dynamical spin structure factor of the\ntunneling barrier with momentum and energy resolution. Our proposal presents a\npromising tool for experimentally characterizing quantum spin liquids in\ntwo-dimensional materials.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:00:15 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Peri","Valerio",""],["Ilani","Shahal",""],["Lee","Patrick A.",""],["Refael","Gil",""]]} +{"id":"2308.15534","submitter":"Akhil Krishna R Mr","authors":"Akhil Krishna R, Sreeja S Kartha, Blesson Mathew, Ujjwal Krishnan,\n Savithri H Ezhikode and Robin Thomas","title":"DES J024008.08-551047.5: A New Member to the Family of Polar Ring\n Galaxies","comments":"6 pages, 5 figures, accepted for publication in A&A journal","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" During the visual observations of optical imaging data obtained from the\nDECaLS, a serendipitous discovery emerged, revealing the presence of a ringed\ngalaxy, DES J024008.08-551047.5 (DJ0240). We performed one dimensional\nisophotal and two dimensional GALFIT analysis to confirm the orthogonal nature\nof the ring galaxy and identify distinct components within the host galaxy. We\ndiscovered the galaxy DJ0240 as a potential PRG candidate with a ring component\npositioned almost perpendicular to the host galaxy. The position angles of the\nring and host components have been determined to be 80 and 10 degrees,\nrespectively, indicating that they are nearly orthogonal to each other. We\nobserved that the ring component extends three times more than the host galaxy\nand shows a distinct color separation, being bluer than the host. The estimated\ng - r color values of host and ring components are 0.86+/-0.02 and 0.59+/-0.10\nmag, respectively. The color value of the ring component is similar to typical\nspiral galaxies. The host galaxy`s color and the presence of a bulge and disk\ncomponents indicate the possibility of the host galaxy being a lenticular type.\nBased on the comparison of photometric properties between the PRGs and other\nring type galaxies (RTGs), our findings reveal a subtle, yet noticeable, color\ndifference between the host and ring components. We observed that both host and\nring components of DJ0240 align more closely with PRGs than with RTGs.\nFurthermore, we compared the sersic index values of the ring component (nring)\nof galaxy DJ0240 with a selected sample of PRGs and Hoag-type galaxies. The\nresults showed DJ0240 had a remarkably low nring value of 0.13, supporting the\ngalaxy`s classification as a PRG. Hence, we suggest that the ring galaxy DJ0240\nis a highly promising candidate for inclusion in the family of PRGs.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:00:19 GMT"}],"update_date":"2023-08-31","authors_parsed":[["R","Akhil Krishna",""],["Kartha","Sreeja S",""],["Mathew","Blesson",""],["Krishnan","Ujjwal",""],["Ezhikode","Savithri H",""],["Thomas","Robin",""]]} +{"id":"2308.15535","submitter":"Andrew Yuan","authors":"Andrew C. Yuan","title":"Exactly Solvable Model of Randomly Coupled Twisted Superconducting\n Bilayers","comments":"21 pages (5 main + 16 appendix), 2 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.stat-mech cond-mat.supr-con math-ph math.MP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Motivated by recent experiments on twisted junctions of cuprate\nsuperconductors (SC), it was proposed [1] that at zero temperature, a random\nfirst order Josephson coupling $J_1(\\textbf{r}) \\cos \\phi$ generates an\n\"effective\" global second order coupling, $J_2\\cos(2\\phi)$, with a sign that\nfavors $\\phi = \\pm \\pi/2$, i.e., spontaneous breaking of time reversal symmetry\n(TRS). To obtain a more controlled understanding of the suggested\n\"disorder-induced-order\" mechanism, we construct an exactly solvable lattice\nmean field model and prove that when the disorder-average $\\bar{J}_1=0$, the\nmodel exhibits a TRS breaking phase for all temperatures below the SC\ntransition, i.e., $T_c = T_{\\mathrm{TRSB}}$, regardless of the specific form of\ndisorder. In the presence of nonzero $\\bar{J}_1\\ne 0$, we show that the two\ntransitions split linearly for small $\\bar{J}_1 \\ll \\kappa$ (where $\\kappa$ is\nthe in-plane SC stiffness), and that $T_{\\mathrm{TRSB}}$ vanishes for $\\bar\nJ_1> J_c$ where $ J_c= \\overline{J^2_1}/\\kappa$ in the weak disorder limit.\n [1] A. C. Yuan, Y. Vituri, E. Berg, B. Spivak, and S. A. Kivelson,\nInhomogeneity-induced time-reversal symmetry breaking in cuprate\ntwist-junctions, arXiv preprint arXiv:2305.15472 (2023)\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:00:20 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Yuan","Andrew C.",""]]} +{"id":"2308.15536","submitter":"Yuting Xiao","authors":"Yuting Xiao, Jingwei Xu, Zehao Yu, Shenghua Gao","title":"DebSDF: Delving into the Details and Bias of Neural Indoor Scene\n Reconstruction","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In recent years, the neural implicit surface has emerged as a powerful\nrepresentation for multi-view surface reconstruction due to its simplicity and\nstate-of-the-art performance. However, reconstructing smooth and detailed\nsurfaces in indoor scenes from multi-view images presents unique challenges.\nIndoor scenes typically contain large texture-less regions, making the\nphotometric loss unreliable for optimizing the implicit surface. Previous work\nutilizes monocular geometry priors to improve the reconstruction in indoor\nscenes. However, monocular priors often contain substantial errors in thin\nstructure regions due to domain gaps and the inherent inconsistencies when\nderived independently from different views. This paper presents \\textbf{DebSDF}\nto address these challenges, focusing on the utilization of uncertainty in\nmonocular priors and the bias in SDF-based volume rendering. We propose an\nuncertainty modeling technique that associates larger uncertainties with larger\nerrors in the monocular priors. High-uncertainty priors are then excluded from\noptimization to prevent bias. This uncertainty measure also informs an\nimportance-guided ray sampling and adaptive smoothness regularization,\nenhancing the learning of fine structures. We further introduce a bias-aware\nsigned distance function to density transformation that takes into account the\ncurvature and the angle between the view direction and the SDF normals to\nreconstruct fine details better. Our approach has been validated through\nextensive experiments on several challenging datasets, demonstrating improved\nqualitative and quantitative results in reconstructing thin structures in\nindoor scenes, thereby outperforming previous work.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:00:22 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Xiao","Yuting",""],["Xu","Jingwei",""],["Yu","Zehao",""],["Gao","Shenghua",""]]} +{"id":"2308.15537","submitter":"Robin Thomas","authors":"Thomas Robin, Sreeja S Kartha, Ujjwal Krishnan, Kanak Saha, Viral\n Parekh, Koshy George, Blesson Mathew","title":"What drives the wheels of evolution in NGC 1512? A UVIT study","comments":"8 pages, 4 figures, accepted for publication in Astronomy and\n Astrophyics journal","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Environmental and secular processes play a pivotal role in the evolution of\ngalaxies. These can be due to external processes such as interactions or\ninternal processes due to the action of bar, bulge and spiral structures.\nOngoing star formation in spiral galaxies can be affected by these processes.\nStudying the star formation in the galaxy can give insights into the evolution\nof the galaxy. The ongoing interaction between barred-spiral galaxy NGC 1512\nand its satellite NGC 1510 offers an opportunity to investigate how galactic\ninteractions and the presence of a galactic bar influence the evolution of NGC\n1512. We aim to understand the recent star formation activity in the galaxy\npair and thus gain insight into the evolution of NGC 1512. The UltraViolet\nImaging Telescope (UVIT) onboard AstroSat enables us to study the star-forming\nregions in the galaxy with a spatial resolution of ~85 pc in the galaxy rest\nframe. We identified and studied 175 star-forming regions in UVIT FUV image of\nNGC 1512 and correlated with the neutral hydrogen (HI) distribution. We\ndetected localized regions of star formation enhancement and distortions in the\ngalactic disk. This is consistent with HI distribution in the galaxy. This is\nevidence of past and ongoing interactions affecting the star formation\nproperties of the galaxy. We studied the properties of the inner ring. We find\nthat the regions of the inner ring show maximum star formation rate density\n(log(SFRDmean[Msolaryr-1kpc-2]) ~ -1.7) near the major axis of the bar, hinting\nat a possible crowding effect in these regions. The region of the bar in the\ngalaxy is also depleted of UV emission. This absence suggests that the galactic\nbar played an active role in the redistribution of gas and quenching of star\nformation inside identified bar region. Hence, we suggest that both the secular\nand environmental factors might influence the evolution of NGC 1512.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:00:24 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Robin","Thomas",""],["Kartha","Sreeja S",""],["Krishnan","Ujjwal",""],["Saha","Kanak",""],["Parekh","Viral",""],["George","Koshy",""],["Mathew","Blesson",""]]} +{"id":"2308.15538","submitter":"Fei Xu","authors":"Fei Xu and Dan Hooper","title":"The Dark Matter Discovery Potential of the Advanced\n Particle-Astrophysics Telescope (APT)","comments":"8 pages, 5 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.HE astro-ph.CO astro-ph.GA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Gamma-ray observations of Milky Way dwarf galaxies have been used to place\nstringent constraints on the dark matter's annihilation cross section. In this\npaper, we evaluate the sensitivity of the proposed Advanced\nParticle-astrophysics Telescope (APT) to dark matter in these systems, finding\nthat such an instrument would be capable of constraining thermal relics with\nmasses as large as $m_X\\sim 600 \\, {\\rm GeV}$. Furthermore, in dark matter\nscenarios motivated by the observed Galactic Center Gamma-Ray Excess, we\npredict that APT would detect several dwarf galaxies with high-significance.\nSuch observations could be used to test the predicted proportionality between\nthe gamma-ray fluxes and $J$-factors of individual dwarf galaxies, providing us\nwith an unambiguous test of the origin of the Galactic Center Excess.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:01:07 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Xu","Fei",""],["Hooper","Dan",""]]} +{"id":"2308.15539","submitter":"Suhas Ganjam","authors":"Suhas Ganjam, Yanhao Wang, Yao Lu, Archan Banerjee, Chan U Lei, Lev\n Krayzman, Kim Kisslinger, Chenyu Zhou, Ruoshui Li, Yichen Jia, Mingzhao Liu,\n Luigi Frunzio, Robert J. Schoelkopf","title":"Surpassing millisecond coherence times in on-chip superconducting\n quantum memories by optimizing materials, processes, and circuit design","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The performance of superconducting quantum circuits for quantum computing has\nadvanced tremendously in recent decades; however, a comprehensive understanding\nof relaxation mechanisms does not yet exist. In this work, we utilize a\nmultimode approach to characterizing energy losses in superconducting quantum\ncircuits, with the goals of predicting device performance and improving\ncoherence through materials, process, and circuit design optimization. Using\nthis approach, we measure significant reductions in surface and bulk dielectric\nlosses by employing a tantalum-based materials platform and annealed sapphire\nsubstrates. With this knowledge we predict and experimentally verify the\nrelaxation times of aluminum- and tantalum-based transmon qubits. We\nadditionally optimize device geometry to maximize coherence within a coaxial\ntunnel architecture, and realize on-chip quantum memories with single-photon\nRamsey times of 2.0$-$2.7 ms, limited by their energy relaxation times of\n1.0$-$1.4 ms. To our knowledge this is the highest coherence achieved in an\non-chip quantum memory, and demonstrates an advancement towards a more modular\nand compact coaxial circuit architecture for bosonic qubits with reproducibly\nhigh coherence.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:01:08 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Ganjam","Suhas",""],["Wang","Yanhao",""],["Lu","Yao",""],["Banerjee","Archan",""],["Lei","Chan U",""],["Krayzman","Lev",""],["Kisslinger","Kim",""],["Zhou","Chenyu",""],["Li","Ruoshui",""],["Jia","Yichen",""],["Liu","Mingzhao",""],["Frunzio","Luigi",""],["Schoelkopf","Robert J.",""]]} +{"id":"2308.15540","submitter":"Abhisek Samanta","authors":"Abhisek Samanta, Itay Mangel, Amit Keren, Daniel P. Arovas and Assa\n Auerbach","title":"The two critical temperatures conundrum in\n La$_{1.875}$Sr$_{0.125}$CuO$_4$","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.supr-con","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The in-plane and out-of-plane components of the stiffness tensor in LSCO,\nshow different transition temperatures, with strong variations of the\ninterplane stiffness on sample width. Disorder and critical finite size\ncorrections are too small to explain these effects. With evidence from Monte\nCarlo simulations, we show that due to the high anisotropy, a three dimensional\nsample approaching the transition temperature $T_c$ acts as a quasi one\ndimensional Josephson array. As such, the interplane stiffness exhibits an\nessential singularity $\\sim \\exp(-A/|T-T_c|^{2\\beta})$. At finite experimental\nor numerical resolution, the interplane stiffness always appears to vanish at a\nlower temperature than the in-plane stiffness. An analogy to studies of helium\nsuperfluids in nanopores is made.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:01:13 GMT"},{"version":"v2","created":"Thu, 31 Aug 2023 16:31:43 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Samanta","Abhisek",""],["Mangel","Itay",""],["Keren","Amit",""],["Arovas","Daniel P.",""],["Auerbach","Assa",""]]} +{"id":"2308.15541","submitter":"Daniel Mu\\~noz-Segovia","authors":"Daniel Mu\\~noz-Segovia, J\\\"orn W. F. Venderbos, Adolfo G. Grushin,\n Fernando de Juan","title":"Nematic and stripe orders within the charge density wave state of doped\n TiSe$_2$","comments":"7+9 pages, 4+2 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.str-el cond-mat.mes-hall","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this work, we present a theory to reconcile conflicting experimental\nclaims regarding the charge density wave (CDW) state in TiSe$_2$, including\nwhether there is a single or multiple CDW transitions and the occasional\nobservation of rotation symmetry breaking. Using a\n$\\boldsymbol{k}\\cdot\\boldsymbol{p}$ model coupled to the CDW order parameter,\nwe show how commonplace conduction band doping $x$ must cause a transition from\nthe $C_3$-symmetric $3Q$ state to a $C_3$-breaking $1Q$ stripe state at a\ncritical doping $x_{1Q}$. In addition, for sufficient ellipticity of the\nconduction bands, as displayed by the realistic band stucture of TiSe$_2$, a\nnew nematic $3Q$ state also emerges in a region with $x < x_{1Q}$. We then show\nhow both stripe and nematic states emerge from a minimal interacting\ntight-binding model, for both positive and negative initial gaps. Our theory\nclarifies a long-standing puzzle and its predictions can be verified with a\nvariety of probes including transport, photoemission and tunneling.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:01:19 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Mu\u00f1oz-Segovia","Daniel",""],["Venderbos","J\u00f6rn W. F.",""],["Grushin","Adolfo G.",""],["de Juan","Fernando",""]]} +{"id":"2308.15542","submitter":"Amir Burshtein","authors":"Amir Burshtein and Moshe Goldstein","title":"Inelastic decay from integrability","comments":"36 pages, 5 figures. See also a paper by M. Houzet, T. Yamamoto and\n L. I. Glazman on the same arXiv posting","journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph cond-mat.mes-hall cond-mat.str-el hep-th","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" A hallmark of integrable systems is the purely elastic scattering of their\nexcitations. Such systems posses an extensive number of locally conserved\ncharges, leading to the conservation of the number of scattered excitations, as\nwell as their set of individual momenta. In this work, we show that inelastic\ndecay can nevertheless be observed in circuit QED realizations of integrable\nboundary models. We consider the scattering of microwave photons off impurities\nin superconducting circuits implementing the boundary sine-Gordon and Kondo\nmodels, which are both integrable. We show that not only inelastic decay is\npossible for the microwave photons, in spite of integrability, and thanks to a\nnonlinear relation between them and the elastically-scattered excitations, but\nalso that integrability in fact provides powerful analytical tools allowing to\nobtain exact expressions for response functions describing the inelastic decay.\nUsing the framework of form factors, we calculate the total inelastic decay\nrate and elastic phase shift of the microwave photons, extracted from a 2-point\nresponse function. We then go beyond linear response and obtain the exact\nenergy-resolved inelastic decay spectrum, using a novel method to evaluate form\nfactor expansions of 3-point response functions, which could prove useful in\nother applications of integrable quantum field theories. We relate our results\nto several recent photon splitting experiments, and in particular to recent\nexperimental data that provides evidence for the elusive Schmid-Bulgadaev\ndissipative quantum phase transition.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:02:13 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Burshtein","Amir",""],["Goldstein","Moshe",""]]} +{"id":"2308.15543","submitter":"Adam Gonzalez","authors":"Adam G. Gonzalez, Luigi C. Gallo, Jon M. Miller, Elias S. Kammoun,\n Akshay Ghosh, Ben A. Pottie","title":"Characterizing X-ray, UV, and optical variability in NGC 6814 using\n high-cadence Swift observations from a 2022 monitoring campaign","comments":"11 pages, 7 figures, 4 tables, submitted to MNRAS","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.HE astro-ph.GA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We present the first results of a high-cadence Swift monitoring campaign\n($3-4$ visits per day for $75$ days) of the Seyfert 1.5 galaxy NGC 6814\ncharacterizing its variability throughout the X-ray and UV/optical wavebands.\nStructure function analysis reveals an X-ray power law\n($\\alpha=0.5^{+0.2}_{-0.1}$) that is significantly flatter than the one\nmeasured in the UV/optical bands ($\\langle\\alpha\\rangle\\approx1.5$), suggesting\ndifferent physical mechanisms driving the observed variability in each emission\nregion. The structure function break-time is consistent across the UV/optical\nbands ($\\langle\\tau\\rangle\\approx2.3~\\mathrm{d}$), suggesting a very compact\nemission region in the disc. Correlated short time-scale variability measured\nthrough cross-correlation analysis finds a lag-wavelength spectrum that is\ninconsistent with a standard disc reprocessing scenario\n($\\tau\\propto\\lambda^{4/3}$) due to significant flattening in the optical\nwavebands. Flux-flux analysis finds an extremely blue AGN spectral component\n($F_{\\nu}\\propto\\lambda^{-0.85}$) that does not follow a standard accretion\ndisc profile ($F_{\\nu}\\propto\\lambda^{-1/3}$). While extreme outer disc\ntruncation ($R_{\\mathrm{out}}=202\\pm5~r_g$) at a standard accretion rate\n($\\dot{m}_{\\mathrm{Edd}}=0.0255\\pm0.0006$) may explain the shape of the AGN\nspectral component, the lag-wavelength spectrum requires more modest truncation\n($R_{\\mathrm{out}}=1,382^{+398}_{-404}~r_g$) at an extreme accretion rate\n($\\dot{m}_{\\mathrm{Edd}}=1.3^{+2.1}_{-0.9}$). No combination of parameters can\nsimultaneously explain both results in a self-consistent way. Our results offer\nthe first evidence of a non-standard accretion disc in NGC 6814.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:02:58 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Gonzalez","Adam G.",""],["Gallo","Luigi C.",""],["Miller","Jon M.",""],["Kammoun","Elias S.",""],["Ghosh","Akshay",""],["Pottie","Ben A.",""]]} +{"id":"2308.15544","submitter":"Lukas Antoniuk","authors":"Lukas Antoniuk, Niklas Lettner, Anna P. Ovvyan, Simon Haugg, Marco\n Klotz, Helge Gehring, Daniel Wendland, Viatcheslav N. Agafonov, Wolfram H. P.\n Pernice and Alexander Kubanek","title":"All-Optical Spin Initialization via a Cavity Broadened Optical\n Transition in On-Chip Hybrid Quantum Photonics","comments":"6 pages, 4 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Hybrid quantum photonic systems connect classical photonics to the quantum\nworld and promise to deliver efficient light-matter quantum interfaces while\nleveraging the advantages of both, the classical and the quantum, subsystems.\nHowever, combining efficient, scalable photonics and solid state quantum\nsystems with desirable optical and spin properties remains a formidable\nchallenge. In particular the access to individual spin states and coherent\nmapping to photons remains unsolved for these systems. In this letter, we\ndemonstrate all-optical initialization and readout of the electronic spin of a\nnegatively-charged silicon-vacancy center in a nanodiamond coupled to a silicon\nnitride photonic crystal cavity. We characterize relevant parameters of the\ncoupled emitter-cavity system and determine the silicon-vacancy center's\nspin-relaxation and spin-decoherence rate. Our results mark an important step\ntowards the realization of a hybrid spin-photon interface based on silicon\nnitride photonics and the silicon-vacancy center's electron spin in\nnanodiamonds with potential use for quantum networks, quantum communication and\ndistributed quantum computation.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:03:11 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Antoniuk","Lukas",""],["Lettner","Niklas",""],["Ovvyan","Anna P.",""],["Haugg","Simon",""],["Klotz","Marco",""],["Gehring","Helge",""],["Wendland","Daniel",""],["Agafonov","Viatcheslav N.",""],["Pernice","Wolfram H. P.",""],["Kubanek","Alexander",""]]} +{"id":"2308.15545","submitter":"Vladimir Skokov","authors":"Alex Kovner, Michael Lublinsky, Vladimir V. Skokov, Zichen Zhao","title":"Not all that is $\\beta_0$ is $\\beta$-function: the DGLAP resummation and\n the running coupling in NLO JIMWLK","comments":"43 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We reanalyze the origin of the large transverse logarithms associated with\nthe QCD one loop beta-function coefficient in the NLO JIMWLK Hamiltonian. We\nshow that some of these terms are not associated with the running of the QCD\ncoupling constant but rather with the DGLAP evolution. The DGLAP-like\nresummation of these logarithms is mandatory within the JIMWLK Hamiltonian, as\nlong as the color correlation length in the projectile is larger than that in\nthe target. This regime in fact covers the whole range of rapidities at which\nJIMWLK evolution is supposed to be applicable. We derive the RG equation that\nresums these logarithms to all orders in alpha_s in the JIMWLK Hamiltonian.\nThis is a nonlinear equation for the eikonal scattering matrix S(x). We solve\nthis equation and perform the DGLAP resummation in two simple cases: the dilute\nlimit, where both the projectile and the target are far from saturation, and\nthe saturated regime, where the target correlation length also determines its\nsaturation momentum.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:08:47 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kovner","Alex",""],["Lublinsky","Michael",""],["Skokov","Vladimir V.",""],["Zhao","Zichen",""]]} +{"id":"2308.15546","submitter":"Tanmay Inamdar","authors":"Fedor V. Fomin, Petr A. Golovach, Tanmay Inamdar, Tomohiro Koana","title":"FPT Approximation and Subexponential Algorithms for Covering Few or Many\n Edges","comments":"Updated version of MFCS 2023 paper","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DS","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We study the \\textsc{$\\alpha$-Fixed Cardinality Graph Partitioning\n($\\alpha$-FCGP)} problem, the generic local graph partitioning problem\nintroduced by Bonnet et al. [Algorithmica 2015]. In this problem, we are given\na graph $G$, two numbers $k,p$ and $0\\leq\\alpha\\leq 1$, the question is whether\nthere is a set $S\\subseteq V$ of size $k$ with a specified coverage function\n$cov_{\\alpha}(S)$ at least $p$ (or at most $p$ for the minimization version).\nThe coverage function $cov_{\\alpha}(\\cdot)$ counts edges with exactly one\nendpoint in $S$ with weight $\\alpha$ and edges with both endpoints in $S$ with\nweight $1 - \\alpha$. $\\alpha$-FCGP generalizes a number of fundamental graph\nproblems such as \\textsc{Densest $k$-Subgraph}, \\textsc{Max $k$-Vertex Cover},\nand \\textsc{Max $(k,n-k)$-Cut}.\n A natural question in the study of $\\alpha$-FCGP is whether the algorithmic\nresults known for its special cases, like \\textsc{Max $k$-Vertex Cover}, could\nbe extended to more general settings. One of the simple but powerful methods\nfor obtaining parameterized approximation [Manurangsi, SOSA 2019] and\nsubexponential algorithms [Fomin et al. IPL 2011] for \\textsc{Max $k$-Vertex\nCover} is based on the greedy vertex degree orderings. The main insight of our\nwork is that the idea of greed vertex degree ordering could be used to design\nfixed-parameter approximation schemes (FPT-AS) for $\\alpha > 0$ and the\nsubexponential-time algorithms for the problem on apex-minor free graphs for\nmaximization with $\\alpha > 1/3$ and minimization with $\\alpha < 1/3$.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:11:03 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Fomin","Fedor V.",""],["Golovach","Petr A.",""],["Inamdar","Tanmay",""],["Koana","Tomohiro",""]]} +{"id":"2308.15547","submitter":"Shilei Sun","authors":"Shilei Sun, Ming Liu, Zhongyi Fan, Yuxue Liu, Chengwei Lv, Liquan\n Dong, Lingqin Kong (Beijing Institute of Technology, China)","title":"Efficient Ray Sampling for Radiance Fields Reconstruction","comments":"15 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV cs.GR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Accelerating neural radiance fields training is of substantial practical\nvalue, as the ray sampling strategy profoundly impacts network convergence.\nMore efficient ray sampling can thus directly enhance existing NeRF models'\ntraining efficiency. We therefore propose a novel ray sampling approach for\nneural radiance fields that improves training efficiency while retaining\nphotorealistic rendering results. First, we analyze the relationship between\nthe pixel loss distribution of sampled rays and rendering quality. This reveals\nredundancy in the original NeRF's uniform ray sampling. Guided by this finding,\nwe develop a sampling method leveraging pixel regions and depth boundaries. Our\nmain idea is to sample fewer rays in training views, yet with each ray more\ninformative for scene fitting. Sampling probability increases in pixel areas\nexhibiting significant color and depth variation, greatly reducing wasteful\nrays from other regions without sacrificing precision. Through this method, not\nonly can the convergence of the network be accelerated, but the spatial\ngeometry of a scene can also be perceived more accurately. Rendering outputs\nare enhanced, especially for texture-complex regions. Experiments demonstrate\nthat our method significantly outperforms state-of-the-art techniques on public\nbenchmark datasets.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:11:32 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Sun","Shilei","","Beijing Institute of Technology, China"],["Liu","Ming","","Beijing Institute of Technology, China"],["Fan","Zhongyi","","Beijing Institute of Technology, China"],["Liu","Yuxue","","Beijing Institute of Technology, China"],["Lv","Chengwei","","Beijing Institute of Technology, China"],["Dong","Liquan","","Beijing Institute of Technology, China"],["Kong","Lingqin","","Beijing Institute of Technology, China"]]} +{"id":"2308.15548","submitter":"Carolina Da Silva Bourdot Dutra","authors":"Carolina Bourdot Dutra and Elia Merzari","title":"Study on Laminar-Turbulent Transition in Square Arrayed Rod Bundles","comments":"ICONE-28","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.flu-dyn","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The study of coolant flow behavior in rod bundles is of relevance to the\ndesign of nuclear reactors. Although laminar and turbulent flows have been\nresearched extensively, there are still gaps in understanding the process of\nlaminar-turbulent transition. Such a process may involve the formation of a gap\nvortex street as the consequence of a related linear instability. In the\npresent work, a parametric study was performed to analyze the spatially\ndeveloping turbulence in a simplified geometry setting. The geometry includes\ntwo square arrayed rod bundle subchannels with periodic boundary conditions in\nthe cross-section. The pitch-to-diameter ratios range from 1.05 to 1.20, and\nthe length of the domain was selected to be 100 diameters. No-slip condition at\nthe wall, and inlet-outlet configuration were employed. Then, to investigate\nthe stability of the flow, the Reynolds number was varied from 250 to 3000. The\nsimulations were carried out using the spectral-element code Nek5000, with a\nDirect Numerical Simulation (DNS) approach. Data were analyzed to examine this\nSpatio-temporal developing instability. In particular, we evaluate the location\nof onset and spatial growth of the instability.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:12:36 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Dutra","Carolina Bourdot",""],["Merzari","Elia",""]]} +{"id":"2308.15549","submitter":"Dayu Sun","authors":"Dayu Sun, Zhuowei Sun, Xingqiu Zhao and Hongyuan Cao","title":"Kernel meets sieve: transformed hazards models with sparse longitudinal\n covariates","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"stat.ME math.ST stat.TH","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" We study the transformed hazards model with intermittently observed\ntime-dependent covariates for the censored outcome. Existing work assumes the\navailability of the whole trajectory of the time-dependent covariates, which is\nnot realistic. We propose to combine kernel-weighted log-likelihood and sieve\nmaximum log-likelihood estimation to conduct statistical inference. The method\nis robust and easy to implement. We establish the asymptotic properties of the\nproposed estimator and contribute to a rigorous theoretical framework for\ngeneral kernel-weighted sieve M-estimators. Numerical studies corroborate our\ntheoretical results and show that the proposed method has favorable performance\nover existing methods. An application to a COVID-19 study in Wuhan illustrates\nthe practical utility of our method.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:15:18 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Sun","Dayu",""],["Sun","Zhuowei",""],["Zhao","Xingqiu",""],["Cao","Hongyuan",""]]} +{"id":"2308.15550","submitter":"Md Masudur Rahman","authors":"Md Masudur Rahman and Yexiang Xue","title":"Adversarial Style Transfer for Robust Policy Optimization in Deep\n Reinforcement Learning","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This paper proposes an algorithm that aims to improve generalization for\nreinforcement learning agents by removing overfitting to confounding features.\nOur approach consists of a max-min game theoretic objective. A generator\ntransfers the style of observation during reinforcement learning. An additional\ngoal of the generator is to perturb the observation, which maximizes the\nagent's probability of taking a different action. In contrast, a policy network\nupdates its parameters to minimize the effect of such perturbations, thus\nstaying robust while maximizing the expected future reward. Based on this\nsetup, we propose a practical deep reinforcement learning algorithm,\nAdversarial Robust Policy Optimization (ARPO), to find a robust policy that\ngeneralizes to unseen environments. We evaluate our approach on Procgen and\nDistracting Control Suite for generalization and sample efficiency.\nEmpirically, ARPO shows improved performance compared to a few baseline\nalgorithms, including data augmentation.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:17:35 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Rahman","Md Masudur",""],["Xue","Yexiang",""]]} +{"id":"2308.15551","submitter":"Mallory Molina","authors":"M. Molina (1,2,3), L. Duffy (4), M. Eracleous (4), M. Ogborn (4), M.\n E. Kaldor (4), R. Yan (5), C. Gronwall (4), R. Ciardullo (4), N. Ajgaonkar\n (5,6) (1 Montana State, 2 U of Utah, 3 Vanderbilt U, 4 Penn State, 5 U of\n Kentucky, 6 Intel Corp)","title":"The New Swift/UVOT+MaNGA (SwiM) Value-added Catalog","comments":"Accepted to ApJS Aug 15, 2023. arXiv admin note: text overlap with\n arXiv:2007.08541","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We present the the new Swift/UVOT+MaNGA (SwiM) catalog (SwiM_v4.1). SwiM_v4.1\nis designed to study star-formation and dust attenuation within nearby galaxies\ngiven the unique overlap of Swift/UVOT near-ultraviolet (NUV) imaging and MaNGA\nintegral field optical spectroscopy. SwiM_v4.1 comprises 559 objects, ~4 times\nmore than the original SwiM catalog (SwiM_v3.1), spans a redshift range\nz~0.0002-0.1482, and provides a more diverse and rich sample. Approximately 5%\nof the final MaNGA sample is included in SwiM_v4.1, and 42% of the SwiM_v4.1\ngalaxies are cross-listed with other well-known catalogs. We present the same\ndata as SwiM_v3.1, including UVOT images, SDSS images and MaNGA emission-line\nand spectral index maps with the same pixel size and angular resolution for\neach galaxy, and a file containing galaxy and observational properties. We\ndesigned SwiM_v4.1 to be unbiased, which resulted in some objects having low\nsignal-to-noise ratios in their MaNGA or Swift data. We addressed this by\nproviding a new file containing the fraction of science-ready pixels in each\nMaNGA emission-line map, and the integrated flux and inverse variance for all\nthree NUV filters. The uniform angular resolution and sampling in SwiM_v4.1\nwill help answer a number of scientific questions, including constraining\nquenching and attenuation in the local Universe and studying the effects of\nblack hole feedback. The galaxy maps, catalog files, and their associated data\nmodels are publicly released on the SDSS website:\nhttps://www.sdss4.org/dr17/data_access/value-added-catalogs/?vac_id=swift-manga-value-added-catalog.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:18:05 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Molina","M.",""],["Duffy","L.",""],["Eracleous","M.",""],["Ogborn","M.",""],["Kaldor","M. E.",""],["Yan","R.",""],["Gronwall","C.",""],["Ciardullo","R.",""],["Ajgaonkar","N.",""]]} +{"id":"2308.15552","submitter":"Riccardo Poiani","authors":"Riccardo Poiani, Alberto Maria Metelli, Marcello Restelli","title":"Pure Exploration under Mediators' Feedback","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG stat.ML","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Stochastic multi-armed bandits are a sequential-decision-making framework,\nwhere, at each interaction step, the learner selects an arm and observes a\nstochastic reward. Within the context of best-arm identification (BAI)\nproblems, the goal of the agent lies in finding the optimal arm, i.e., the one\nwith highest expected reward, as accurately and efficiently as possible.\nNevertheless, the sequential interaction protocol of classical BAI problems,\nwhere the agent has complete control over the arm being pulled at each round,\ndoes not effectively model several decision-making problems of interest (e.g.,\noff-policy learning, partially controllable environments, and human feedback).\nFor this reason, in this work, we propose a novel strict generalization of the\nclassical BAI problem that we refer to as best-arm identification under\nmediators' feedback (BAI-MF). More specifically, we consider the scenario in\nwhich the learner has access to a set of mediators, each of which selects the\narms on the agent's behalf according to a stochastic and possibly unknown\npolicy. The mediator, then, communicates back to the agent the pulled arm\ntogether with the observed reward. In this setting, the agent's goal lies in\nsequentially choosing which mediator to query to identify with high probability\nthe optimal arm while minimizing the identification time, i.e., the sample\ncomplexity. To this end, we first derive and analyze a statistical lower bound\non the sample complexity specific to our general mediator feedback scenario.\nThen, we propose a sequential decision-making strategy for discovering the best\narm under the assumption that the mediators' policies are known to the learner.\nAs our theory verifies, this algorithm matches the lower bound both almost\nsurely and in expectation. Finally, we extend these results to cases where the\nmediators' policies are unknown to the learner obtaining comparable results.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:18:21 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Poiani","Riccardo",""],["Metelli","Alberto Maria",""],["Restelli","Marcello",""]]} +{"id":"2308.15553","submitter":"Tendai Mapungwana Chikake","authors":"Tendai Mapungwana Chikake and Boris Goldengorin","title":"Dimensionality Reduction Using pseudo-Boolean polynomials For Cluster\n Analysis","comments":"14 pages, 4 figures, submitted to the International Conference Data\n Analysis, Optimization and Their Applications on the Occasion of Boris\n Mirkin's 80th Birthday January 30-31, 2023, Dolgoprudny, Moscow Region,\n Moscow Institute of Physics and Technology\n https://mipt.ru/education/chairs/dm/conferences/data-analysis-optimization-and-their-applications-2023.php","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IR cs.LG","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" We introduce usage of a reduction property of penalty-based formulation of\npseudo-Boolean polynomials as a mechanism for invariant dimensionality\nreduction in cluster analysis processes. In our experiments, we show that\nmultidimensional data, like 4-dimensional Iris Flower dataset can be reduced to\n2-dimensional space while the 30-dimensional Wisconsin Diagnostic Breast Cancer\n(WDBC) dataset can be reduced to 3-dimensional space, and by searching lines or\nplanes that lie between reduced samples we can extract clusters in a linear and\nunbiased manner with competitive accuracies, reproducibility and clear\ninterpretation.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:19:36 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Chikake","Tendai Mapungwana",""],["Goldengorin","Boris",""]]} +{"id":"2308.15554","submitter":"Muhammad Rizwan Akram","authors":"Muhammad Rizwan Akram and Abbas Semnani","title":"A Microwave Anapole Source Based on Electric Dipole Interactions Over a\n Low-Index Dielectric","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.app-ph physics.optics","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The pursuit of non-radiating sources and radiation-less motion for\naccelerated charged particles has captivated physicists for generations.\nNon-radiating sources represent intricate current charge configurations that do\nnot emit radiation beyond their source domain. In this study, we investigate a\nsingle non-radiating source, comprising a low-index dielectric disk excited by\na split ring resonator. Employing analytical and numerical methods, we\ndemonstrate that this configuration supports an anapole state, exhibiting\nminimal or no radiation, effectively representing a non-radiating source. The\nradiation suppression is accomplished through the destructive interference of\nelectric dipoles excited on the metallic and dielectric components of the\nproposed prototype. Transforming the design into a cost-effective device\ncapable of suppressing radiation, we achieve impressive numerical and\nexperimental agreement, affirming the formation of the anapole state using the\nlowest order multi-poles. Moreover, the devised anapole device is remarkably\ncompact, constructed from a low-index dielectric, and employs readily available\ncomponents. As a versatile platform, the proposed device can spearhead anapole\nresearch for diverse applications, including sensing, wireless charging, RFID\ntags, and other non-linear applications.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:19:50 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Akram","Muhammad Rizwan",""],["Semnani","Abbas",""]]} +{"id":"2308.15555","submitter":"Robert-Jan Slager","authors":"Zory Davoyan, Wojciech J. Jankowski, Adrien Bouhon, Robert-Jan Slager","title":"$\\mathcal{P}\\mathcal{T}$-symmetric topological phases with Pontryagin\n index in three spatial dimensions","comments":"16+3 pages, 7+1 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mes-hall cond-mat.mtrl-sci quant-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We report on a certain class of three-dimensional topological insulators and\nsemimetals protected by spinless $\\mathcal{P}\\mathcal{T}$ symmetry, hosting an\ninteger-valued bulk invariant. We show using homotopy arguments that these\nphases host multi-gap topology, providing a realization of a single\n$\\mathbb{Z}$ invariant in three spatial dimensions that is distinct from the\nHopf index. We identify this invariant with the Pontryagin index, which\ndescribes BPST instantons in particle physics contexts and corresponds to a\n3-sphere winding number. We study naturally arising multi-gap linked nodal\nrings, topologically characterized by split-biquaternion charges, which can be\nremoved by non-Abelian braiding of nodal rings, even without closing a gap. We\nadditionally connect the describing winding number in terms of gauge-invariant\ncombinations of non-Abelian Berry connection elements, indicating relations to\nPontryagin characteristic class in four dimensions. These topological\nconfigurations are furthermore related to fully non-degenerate multi-gap phases\nthat are characterized by a pair of winding numbers relating to two isoclinic\nrotations in the case of four bands and can be generalized to an arbitrary\nnumber of bands. From a physical perspective, we also analyze the edge states\ncorresponding to this Pontryagin index as well as their dissolution subject to\nthe gap-closing disorder. Finally, we elaborate on the realization of these\nnovel non-Abelian phases, their edge states and linked nodal structures in\nacoustic metamaterials and trapped-ion experiments.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:21:48 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Davoyan","Zory",""],["Jankowski","Wojciech J.",""],["Bouhon","Adrien",""],["Slager","Robert-Jan",""]]} +{"id":"2308.15556","submitter":"Suyash Fulay","authors":"Suyash Fulay and Deb Roy","title":"Polarized Speech on Online Platforms","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SI","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" While political polarization has increased as measured through surveys,\ncurrently we lack comprehensive, longitudinal, and ecologically valid\nmeasurement of the polarization of online political speech that spans social\nmedia platforms. Using language models, we analyze ~2.5 billion comments on\nReddit and Twitter across ~1.7 million accounts from 2007-2023 and find that\npolarized speech has been rising on both platforms since their inception, with\noutgroup polarization levels higher on Twitter than Reddit. On Twitter, while\nU.S. politicians on the left have been consistently more polarized than\neveryday users, politicians on the right experienced the highest growth in\npolarization, overtaking journalists, media, and everyday users over the past\nfour years. Today, politicians, the group listened to the most for their\npolitical rhetoric, are far more polarized than everyday users. Additionally,\nwhile polarized speech is typically lower for accounts with more followers,\nright-leaning political influencers are an exception to this trend, which may\ninfluence perceptions of polarization on the left versus the right.\nPolarization is more diffuse across users on Twitter than on Reddit, where it\nis localized to a few communities. Polarization also varies by topic, with\nright-leaning users twice as likely to use polarized rhetoric about immigration\nas left-leaning users while left-leaning users are somewhat more likely to be\npolarized around healthcare. Our large-scale analysis reveals previously\nunknown patterns of polarization across platforms, groups, and topics that will\nhelp us better contextualize polarized content and potentially intervene to\nreduce it.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:22:34 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Fulay","Suyash",""],["Roy","Deb",""]]} +{"id":"2308.15557","submitter":"Tendai Mapungwana Chikake","authors":"Tendai Mapungwana Chikake, Boris Goldengorin","title":"A Pseudo-Boolean Polynomials Approach for Image Edge Detection","comments":"8 pages, 7 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV cs.DM","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" We introduce a novel approach for image edge detection based on\npseudo-Boolean polynomials for image patches. We show that patches covering\nedge regions in the image result in pseudo-Boolean polynomials with higher\ndegrees compared to patches that cover blob regions. The proposed approach is\nbased on reduction of polynomial degree and equivalence properties of\npenalty-based pseudo-Boolean polynomials.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:24:28 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Chikake","Tendai Mapungwana",""],["Goldengorin","Boris",""]]} +{"id":"2308.15558","submitter":"Shintaro Minagawa","authors":"Shintaro Minagawa, Kenta Sakai, Kohtaro Kato, Francesco Buscemi","title":"The second law of information thermodynamics for general quantum\n measurement processes","comments":"21 pages, 2 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph cond-mat.stat-mech","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Feedback control protocols have often been considered as a model to embody\nand study Maxwell's demon paradox and the interplay between thermodynamics and\ninformation processing. Such studies have led to the conclusion, now widely\naccepted in the community, that Maxwell's demon and thermodynamics can\npeacefully coexist because any gain provided by the demon must be offset by the\ncost of performing the measurement and resetting the demon's memory to its\ninitial state. Statements of this kind are collectively referred to as the\nsecond law of information thermodynamics. However, previous studies in this\ndirection made several assumptions, thus obtaining a second law of information\nthermodynamics that is not universally applicable and whose range of validity\nis not clear. In this work, we fill this gap by providing necessary and\nsufficient conditions for the validity of the second law inequalities and\nformulate a generalized second law of information thermodynamics. The\ngeneralized second law can be reduced to the known ones under the same or fewer\nassumptions. As a by-product, we identify the Groenewold-Ozawa information gain\nas the proper information measure characterizing the work extractable by\nfeedback control.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:24:36 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Minagawa","Shintaro",""],["Sakai","Kenta",""],["Kato","Kohtaro",""],["Buscemi","Francesco",""]]} +{"id":"2308.15559","submitter":"Mustafa Cavus","authors":"Mustafa Cavus, Adrian Stando, Przemyslaw Biecek","title":"Glocal Explanations of Expected Goal Models in Soccer","comments":"26 pages, 8 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG stat.ML","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The expected goal models have gained popularity, but their interpretability\nis often limited, especially when trained using black-box methods. Explainable\nartificial intelligence tools have emerged to enhance model transparency and\nextract descriptive knowledge for a single observation or for all observations.\nHowever, explaining black-box models for a specific group of observations may\nbe more useful in some domains. This paper introduces the glocal explanations\n(between local and global levels) of the expected goal models to enable\nperformance analysis at the team and player levels by proposing the use of\naggregated versions of the SHAP values and partial dependence profiles. This\nallows knowledge to be extracted from the expected goal model for a player or\nteam rather than just a single shot. In addition, we conducted real-data\napplications to illustrate the usefulness of aggregated SHAP and aggregated\nprofiles. The paper concludes with remarks on the potential of these\nexplanations for performance analysis in soccer analytics.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:29:56 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Cavus","Mustafa",""],["Stando","Adrian",""],["Biecek","Przemyslaw",""]]} +{"id":"2308.15560","submitter":"Stephan Rasp","authors":"Stephan Rasp, Stephan Hoyer, Alexander Merose, Ian Langmore, Peter\n Battaglia, Tyler Russel, Alvaro Sanchez-Gonzalez, Vivian Yang, Rob Carver,\n Shreya Agrawal, Matthew Chantry, Zied Ben Bouallegue, Peter Dueben, Carla\n Bromberg, Jared Sisk, Luke Barrington, Aaron Bell, Fei Sha","title":"WeatherBench 2: A benchmark for the next generation of data-driven\n global weather models","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.ao-ph cs.AI","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" WeatherBench 2 is an update to the global, medium-range (1-14 day) weather\nforecasting benchmark proposed by Rasp et al. (2020), designed with the aim to\naccelerate progress in data-driven weather modeling. WeatherBench 2 consists of\nan open-source evaluation framework, publicly available training, ground truth\nand baseline data as well as a continuously updated website with the latest\nmetrics and state-of-the-art models:\nhttps://sites.research.google/weatherbench. This paper describes the design\nprinciples of the evaluation framework and presents results for current\nstate-of-the-art physical and data-driven weather models. The metrics are based\non established practices for evaluating weather forecasts at leading\noperational weather centers. We define a set of headline scores to provide an\noverview of model performance. In addition, we also discuss caveats in the\ncurrent evaluation setup and challenges for the future of data-driven weather\nforecasting.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:32:08 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Rasp","Stephan",""],["Hoyer","Stephan",""],["Merose","Alexander",""],["Langmore","Ian",""],["Battaglia","Peter",""],["Russel","Tyler",""],["Sanchez-Gonzalez","Alvaro",""],["Yang","Vivian",""],["Carver","Rob",""],["Agrawal","Shreya",""],["Chantry","Matthew",""],["Bouallegue","Zied Ben",""],["Dueben","Peter",""],["Bromberg","Carla",""],["Sisk","Jared",""],["Barrington","Luke",""],["Bell","Aaron",""],["Sha","Fei",""]]} +{"id":"2308.15561","submitter":"Carolina Da Silva Bourdot Dutra","authors":"Carolina Bourdot Dutra and Elia Merzari","title":"Toward Direct Numerical Simulation of Turbulent and Transitional Flow in\n Hexagonal Subchannels for Helium Conditions","comments":"NURETH-19","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.flu-dyn","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Understanding the coolant thermal hydraulics in rod bundles is essential to\nthe design of nuclear reactors. However, flows with low Reynolds numbers\npresent serious modeling challenges, especially in heat transfer and natural\nconvection. They are difficult to analyze through standard Computational Fluid\nDynamics (CFD) tools. High-fidelity simulations, such as Direct Numerical\nSimulations (DNS), can provide invaluable insight into flow physics, supporting\nexperiments in developing a deeper understanding and eventually enabling the\naccurate simulation of this class of flows. Data generated from these\nhigh-fidelity methods can then be used to benchmark available turbulence models\nand deliver cheap, faster running methods. In the present work, the convective\nheat transfer in hexagonal subchannels was studied through a DNS approach,\nusing the high-order spectral element method code Nek5000, developed at Argonne\nNational Laboratory. First, the geometric model composed of two hexagonal\narrayed rod bundle subchannels with a pitch-to-diameter ratio of 1.5 is built,\nand then, the mesh is generated. These unusually high P/D and low Reynolds\nnumbers represent conditions of interest for gas-fast reactors (GFRs). To our\nknowledge, there is no available dataset in these conditions. In this work, we\ndetailed the development of the numerical benchmark and a series of preliminary\nLES simulations. Periodic boundary conditions are applied in the streamwise and\nspanwise directions and non-slip boundary conditions at the wall. Four cases\nare studied, with Reynolds of Re=2500, 5000, 7500, and 10000. All calculations\nhave been performed with the Prandtl number of 0.61, corresponding to helium\nconditions of interest for Gas Fast Reactor applications. The results are\nanalyzed with a polynomial-order convergence study, and the Reynolds stresses,\nand the turbulent kinetic budgets are presented and discussed.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:32:40 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Dutra","Carolina Bourdot",""],["Merzari","Elia",""]]} +{"id":"2308.15562","submitter":"Christos Argyropoulos Prof","authors":"L. Khosravi Khorashad, A. Reicks, A. Erickson, J. E. Shield, D.\n Alexander, A. Laraoui, G. Gogos, C. Zuhlke, and C. Argyropoulos","title":"Unraveling the formation dynamics of metallic femtosecond laser induced\n periodic surface structures","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.optics","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Femtosecond laser surface processing (FLSP) is an emerging fabrication\ntechnique to efficiently control the surface morphology of many types of\nmaterials including metals. However, the theoretical understanding of the FLSP\nformation dynamics is not a trivial task, since it involves the interaction of\nvarious physical processes (electromagnetic, thermal, fluid dynamics) and\nremains relatively unexplored. In this work, we tackle this problem and present\nrigorous theoretical results relevant to low-fluence FLSP that accurately match\nthe outcomes of an experimental campaign focused on the formation dynamics of\nlaser induced periodic surface structures (LIPSS) on stainless steel. More\nspecifically, the topology and maximum depth of LIPSS trenches are\ntheoretically and experimentally investigated as a function of the number of\nlaser pulses. Moreover, precise LIPSS morphology measurements are performed\nusing atomic force microscopy (AFM). The proposed comprehensive simulation\nstudy is based on two-temperature model (TTM) non-equilibrium thermal\nsimulations coupled with fluid dynamic computations to capture the melting\nmetal phase occurring during FLSP. Our rigorous simulation results are found to\nbe in excellent agreement with the AFM measurements. The presented theoretical\nframework to model FLSP under low-fluence femtosecond laser pulses will be\nbeneficial to various emerging applications of LIPSS on metallic surfaces, such\nas cooling high-powered laser diodes and controlling the thermal emission or\nabsorption of metals.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:33:31 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Khorashad","L. Khosravi",""],["Reicks","A.",""],["Erickson","A.",""],["Shield","J. E.",""],["Alexander","D.",""],["Laraoui","A.",""],["Gogos","G.",""],["Zuhlke","C.",""],["Argyropoulos","C.",""]]} +{"id":"2308.15563","submitter":"Rachel Yun Zhang","authors":"Irit Dinur, Siqi Liu, Rachel Yun Zhang","title":"New Codes on High Dimensional Expanders","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IT cs.CC math.GR math.IT","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We describe a new parameterized family of symmetric error-correcting codes\nwith low-density parity-check matrices (LDPC).\n Our codes can be described in two seemingly different ways. First, in\nrelation to Reed-Muller codes: our codes are functions on a subset of\n$\\mathbb{F}^n$ whose restrictions to a prescribed set of affine lines has low\ndegree. Alternatively, they are Tanner codes on high dimensional expanders,\nwhere the coordinates of the codeword correspond to triangles of a\n$2$-dimensional expander, such that around every edge the local view forms a\nReed-Solomon codeword.\n For some range of parameters our codes are provably locally testable, and\ntheir dimension is some fixed power of the block length. For another range of\nparameters our codes have distance and dimension that are both linear in the\nblock length, but we do not know if they are locally testable. The codes also\nhave the multiplication property: the coordinate-wise product of two codewords\nis a codeword in a related code.\n The definition of the codes relies on the construction of a specific family\nof simplicial complexes which is a slight variant on the coset complexes of\nKaufman and Oppenheim. We show a novel way to embed the triangles of these\ncomplexes into $\\mathbb{F}^n$, with the property that links of edges embed as\naffine lines in $\\mathbb{F}^n$.\n We rely on this embedding to lower bound the rate of these codes in a way\nthat avoids constraint-counting and thereby achieves non-trivial rate even when\nthe local codes themselves have arbitrarily small rate, and in particular below\n$1/2$.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:34:46 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Dinur","Irit",""],["Liu","Siqi",""],["Zhang","Rachel Yun",""]]} +{"id":"2308.15564","submitter":"Nicha Dvornek","authors":"Jiyao Wang, Nicha C. Dvornek, Lawrence H. Staib, and James S. Duncan","title":"Learning Sequential Information in Task-based fMRI for Synthetic Data\n Augmentation","comments":"Accepted by Machine Learning in Clinical Neuroimaging 2023 (MICCAI\n workshop), preprint version","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.IV cs.CV cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Insufficiency of training data is a persistent issue in medical image\nanalysis, especially for task-based functional magnetic resonance images (fMRI)\nwith spatio-temporal imaging data acquired using specific cognitive tasks. In\nthis paper, we propose an approach for generating synthetic fMRI sequences that\ncan then be used to create augmented training datasets in downstream learning\ntasks. To synthesize high-resolution task-specific fMRI, we adapt the\n$\\alpha$-GAN structure, leveraging advantages of both GAN and variational\nautoencoder models, and propose different alternatives in aggregating temporal\ninformation. The synthetic images are evaluated from multiple perspectives\nincluding visualizations and an autism spectrum disorder (ASD) classification\ntask. The results show that the synthetic task-based fMRI can provide effective\ndata augmentation in learning the ASD classification task.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:36:21 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Wang","Jiyao",""],["Dvornek","Nicha C.",""],["Staib","Lawrence H.",""],["Duncan","James S.",""]]} +{"id":"2308.15565","submitter":"Mona Saad","authors":"Ahmed Gaber, M.A.Seoud and Mona Tarek","title":"Fuzzy Extended Filters oF MS-Algebras","comments":"12pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.GM","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" In this article, for an $\\emph{MS}$- algebra and a fuzzy filter $\\chi $, the\nconcept of extended fuzzy filter of $\\chi$ is presented, notated by $\n\\Upsilon_{\\chi,W}$ with $W \\subseteq \\mathcal{L}$. The features of\n$\\Upsilon_{\\chi,W}$ are investigated. Furthermore, the strong fuzzy filter is\nintroduced, donated by $\\Omega_{\\chi,W}$. Many properties are studied.\nCharacterisation of both $ \\Upsilon_{\\chi,W}, \\Omega_{\\chi,W}$ are clarified by\nusing the notion of dense elements with respect to a fuzzy filter. The\nhomomorphisms of both $\\Upsilon_{\\chi,W}$ and $\\Omega_{\\chi,W}$ are triggered.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:38:20 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Gaber","Ahmed",""],["Seoud","M. A.",""],["Tarek","Mona",""]]} +{"id":"2308.15566","submitter":"Jos\\'e Hasbani Mr","authors":"Jos\\'e G. Hasbani, Evan M. C. Kias, Roberto Suarez-Rivera and Victor\n M. Calo","title":"Shear-enhanced compaction analysis of the Vaca Muerta formation","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.geo-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Laboratory measurements on Vaca Muerta formation samples show\nstress-dependent elastic behavior and compaction at representative in-situ\nconditions. Experimental results show that the analyzed samples exhibit\nelasto-plastic deformation and shear-enhanced compaction as the main plasticity\nmechanism. These experimental observations conflict with the anticipated\nlinear-elastic response prior to the brittle failure reported in several works\non the geomechanical characterization of the Vaca Muerta formation. Therefore,\nwe present a complete laboratory analysis of samples from the Vaca Muerta\nformation showing experimental evidence of nonlinear elastic and unrecoverable\nshear-enhanced compaction. We also calibrate an elastoplastic constitutive\nmodel using these experimental observations; the resulting model reproduces the\nobserved phenomena adequately.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:38:54 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Hasbani","Jos\u00e9 G.",""],["Kias","Evan M. C.",""],["Suarez-Rivera","Roberto",""],["Calo","Victor M.",""]]} +{"id":"2308.15567","submitter":"Stefan Wils","authors":"Stefan Wils and Bart Jacobs","title":"Certifying C program correctness with respect to CH2O with VeriFast","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LO cs.PL","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" VeriFast is a powerful tool for verification of various correctness\nproperties of C programs using symbolic execution. However, VeriFast itself has\nnot been verified. We present a proof-of-concept extension which generates a\ncorrectness certificate for each successful verification run individually. This\ncertificate takes the form of a Coq script which, when successfully checked by\nCoq, removes the need for trusting in the correctness of VeriFast itself.\n The Coq script achieves this by applying a chain of soundness results,\nallowing us to prove correctness of the program with regards to the third-party\nCH2O small step semantics for C11 by proving correctness in terms of symbolic\nexecution in Coq. This proof chain includes two intermediate auxiliary big step\nsemantics, the most important of which describes VeriFast's interpretation of\nC. Finally, symbolic execution in Coq is implemented by transforming the\nexported AST of the program into a Coq proposition representing the symbolic\nexecution performed by VeriFast itself.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:41:15 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Wils","Stefan",""],["Jacobs","Bart",""]]} +{"id":"2308.15568","submitter":"Singh Akansha","authors":"Singh Akansha","title":"Over-Squashing in Graph Neural Networks: A Comprehensive survey","comments":"7 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AI","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Graph Neural Networks (GNNs) have emerged as a revolutionary paradigm in the\nrealm of machine learning, offering a transformative approach to dissect\nintricate relationships inherent in graph-structured data. The foundational\narchitecture of most GNNs involves the dissemination of information through\nmessage aggregation and transformation among interconnected nodes, a mechanism\nthat has demonstrated remarkable efficacy across diverse applications\nencompassing node classification, link prediction, and recommendation systems.\nNonetheless, their potential prowess encounters a restraint intrinsic to\nscenarios necessitating extensive contextual insights. In certain contexts,\naccurate predictions hinge not only upon a node's immediate local surroundings\nbut also on interactions spanning far-reaching domains. This intricate demand\nfor long-range information dissemination exposes a pivotal challenge recognized\nas \"over-squashing,\" wherein the fidelity of information flow from distant\nnodes becomes distorted. This phenomenon significantly curtails the efficiency\nof message-passing mechanisms, particularly for tasks reliant on intricate\nlong-distance interactions. In this comprehensive article, we illuminate the\nprevalent constraint of over-squashing pervading GNNs. Our exploration entails\na meticulous exposition of the ongoing efforts by researchers to improve the\nramifications posed by this limitation. Through systematic elucidation, we\ndelve into strategies, methodologies, and innovations proposed thus far, all\naimed at mitigating the detriments of over-squashing. By shedding light on this\nintricately woven issue, we aim to contribute to a nuanced understanding of the\nchallenges within the GNN landscape and the evolving solutions designed to\nsurmount them.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:46:15 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Akansha","Singh",""]]} +{"id":"2308.15569","submitter":"Jacob Caudell","authors":"Jacob Caudell","title":"On lens space surgeries from the Poincar\\'e homology sphere","comments":"66 pages. Comments welcome!","journal-ref":null,"doi":null,"report-no":null,"categories":"math.GT","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Building on Greene's changemaker lattices, we develop a lattice embedding\nobstruction to realizing an L-space bounding a definite 4-manifold as integer\nsurgery on a knot in the Poincar\\'e homology sphere. As the motivating\napplication, we determine which lens spaces are realized by $p/q$-surgery on a\nknot $K$ when $p/q > 2g(K) -1$. Specifically, we use the lattice embedding\nobstruction to show that if $K(p)$ is a lens space and $p \\geq 2g(K)$, then\nthere exists an equivalent surgery on a Tange knot with the same knot Floer\nhomology groups; additionally, using input from Baker, Hedden, and Ni, we\nidentify the only two knots in the Poincar\\'e homology sphere that admit\nhalf-integer lens space surgeries. Thus, together with the Finite/Cyclic\nSurgery Theorem of Boyer and Zhang, we obtain the corollary that lens space\nsurgeries on hyperbolic knots in the Poincar\\'e homology sphere are integral.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:49:20 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Caudell","Jacob",""]]} +{"id":"2308.15570","submitter":"Federico Vincentelli","authors":"F.M. Vincentelli, P. Casella, A. Borghese, Y. Cavecchi, G.\n Mastroserio, L. Stella, D. Altamirano, M. Armas Padilla, M. C. Baglio, T. M.\n Belloni, J. Casares, V. A. C\\'uneo, N. Degenaar, M. D\\'iaz Trigo, R. Fender,\n T. Maccarone, J. Malzac, D. Mata S\\'anchez, M. Middleton, S. Migliari, T.\n Mu\\~noz-Darias, K. O'Brien, G. Panizo-Espinar, J. S\\'anchez-Sierras, D. M.\n Russell, P. Uttley","title":"Sub-second infrared variability from the archetypal accreting neutron\n star 4U~1728-34","comments":"Accepted for publication in MNRAS, 11 pages 7 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.HE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We report on the first simultaneous high-time resolution X-ray and infrared\n(IR) observations of a neutron star low mass X-ray binary in its hard state. We\nperformed $\\approx 2\\,$h of simultaneous observations of 4U 1728-34 using\nHAWK-I@VLT, XMM-Newton and NuSTAR. The source displayed significant X-ray and\nIR variability down to sub-second timescales. By measuring the\ncross-correlation function between the infrared and X-ray lightcurves, we\ndiscovered a significant correlation with an infrared lead of $\\approx\n30-40\\,$ms with respect to the X-rays. We analysed the X-ray energy dependence\nof the lag, finding a marginal increase towards higher energies. Given the sign\nof the lag, we interpret this as possible evidence of Comptonization from\nexternal seed photons. We discuss the origin of the IR seed photons in terms of\ncyclo-synchrotron radiation from an extended hot flow. Finally, we also\nobserved the IR counterpart of a type-I X-ray burst, with a delay of\n$\\approx7.2\\,$s. Although some additional effects may be at play, by assuming\nthat this lag is due to light travel time between the central object and the\ncompanion star, we find that 4U 1728-34 must have an orbital period longer than\n$3\\,$h and an inclination higher than 8$^\\circ$.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:52:44 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Vincentelli","F. M.",""],["Casella","P.",""],["Borghese","A.",""],["Cavecchi","Y.",""],["Mastroserio","G.",""],["Stella","L.",""],["Altamirano","D.",""],["Padilla","M. Armas",""],["Baglio","M. C.",""],["Belloni","T. M.",""],["Casares","J.",""],["C\u00faneo","V. A.",""],["Degenaar","N.",""],["Trigo","M. D\u00edaz",""],["Fender","R.",""],["Maccarone","T.",""],["Malzac","J.",""],["S\u00e1nchez","D. Mata",""],["Middleton","M.",""],["Migliari","S.",""],["Mu\u00f1oz-Darias","T.",""],["O'Brien","K.",""],["Panizo-Espinar","G.",""],["S\u00e1nchez-Sierras","J.",""],["Russell","D. M.",""],["Uttley","P.",""]]} +{"id":"2308.15571","submitter":"Helton Saulo","authors":"Helton Saulo, Suvra Pal, Rubens Souza, Roberto Vila, Alan Dasilva","title":"Parametric quantile autoregressive conditional duration models with\n application to intraday value-at-risk","comments":"19 pages, 9 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"stat.ME stat.ML","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The modeling of high-frequency data that qualify financial asset transactions\nhas been an area of relevant interest among statisticians and econometricians\n-- above all, the analysis of time series of financial durations.\nAutoregressive conditional duration (ACD) models have been the main tool for\nmodeling financial transaction data, where duration is usually defined as the\ntime interval between two successive events. These models are usually specified\nin terms of a time-varying mean (or median) conditional duration. In this\npaper, a new extension of ACD models is proposed which is built on the basis of\nlog-symmetric distributions reparametrized by their quantile. The proposed\nquantile log-symmetric conditional duration autoregressive model allows us to\nmodel different percentiles instead of the traditionally used conditional mean\n(or median) duration. We carry out an in-depth study of theoretical properties\nand practical issues, such as parameter estimation using maximum likelihood\nmethod and diagnostic analysis based on residuals. A detailed Monte Carlo\nsimulation study is also carried out to evaluate the performance of the\nproposed models and estimation method in retrieving the true parameter values\nas well as to evaluate a form of residuals. Finally, the proposed class of\nmodels is applied to a price duration data set and then used to derive a\nsemi-parametric intraday value-at-risk (IVaR) model.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:57:50 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Saulo","Helton",""],["Pal","Suvra",""],["Souza","Rubens",""],["Vila","Roberto",""],["Dasilva","Alan",""]]} +{"id":"2308.15572","submitter":"Ismael Mireles","authors":"Ismael Mireles, Diana Dragomir, Hugh P. Osborn, Katharine Hesse, Karen\n A. Collins, Steven Villanueva, Allyson Bieryla, David R. Ciardi, Keivan G.\n Stassun, Mallory Harris, Jack J. Lissauer, Richard P. Schwarz, Gregor Srdoc,\n Khalid Barkaoui, Arno Riffeser, Kim K. McLeod, Joshua Pepper, Nolan Grieves,\n Vera Maria Passegger, Sol\\`ene Ulmer-Moll, Joseph E. Rodriguez, Dax L. Feliz,\n Samuel Quinn, Andrew W. Boyle, Michael Fausnaugh, Michelle Kunimoto, Pamela\n Rowden, Andrew Vanderburg, Bill Wohler, Jon M. Jenkins, David W. Latham,\n George R. Ricker, Sara Seager, and Joshua N. Winn","title":"TOI-4600 b and c: Two long-period giant planets orbiting an early K\n dwarf","comments":"Accepted for publication in ApJL","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.EP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We report the discovery and validation of two long-period giant exoplanets\norbiting the early K dwarf TOI-4600 (V=12.6, T=11.9), first detected using\nobservations from the Transiting Exoplanet Survey Satellite (TESS) by the TESS\nSingle Transit Planet Candidate Working Group (TSTPC-WG). The inner planet,\nTOI-4600 b, has a radius of 6.80$\\pm$0.31 R$_{\\oplus}$ and an orbital period of\n82.69 d. The outer planet, TOI-4600 c, has a radius of 9.42$\\pm$0.42\nR$_{\\oplus}$ and an orbital period of 482.82 d, making it the longest-period\nconfirmed or validated planet discovered by TESS to date. We combine TESS\nphotometry and ground-based spectroscopy, photometry, and high-resolution\nimaging to validate the two planets. With equilibrium temperatures of 347 K and\n191 K, respectively, TOI-4600 b and c add to the small but growing population\nof temperate giant exoplanets that bridge the gap between hot/warm Jupiters and\nthe solar system's gas giants. TOI-4600 is a promising target for further\ntransit and precise RV observations to measure masses and orbits for the\nplanets as well as search for additional non-transiting planets. Additionally,\nwith Transit Spectroscopy Metric (TSM) values of $\\sim$30, both planets are\namenable for atmospheric characterization with JWST. Altogether will lend\ninsight into the formation and evolution of planet systems with multiple giant\nexoplanets.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 18:58:59 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Mireles","Ismael",""],["Dragomir","Diana",""],["Osborn","Hugh P.",""],["Hesse","Katharine",""],["Collins","Karen A.",""],["Villanueva","Steven",""],["Bieryla","Allyson",""],["Ciardi","David R.",""],["Stassun","Keivan G.",""],["Harris","Mallory",""],["Lissauer","Jack J.",""],["Schwarz","Richard P.",""],["Srdoc","Gregor",""],["Barkaoui","Khalid",""],["Riffeser","Arno",""],["McLeod","Kim K.",""],["Pepper","Joshua",""],["Grieves","Nolan",""],["Passegger","Vera Maria",""],["Ulmer-Moll","Sol\u00e8ne",""],["Rodriguez","Joseph E.",""],["Feliz","Dax L.",""],["Quinn","Samuel",""],["Boyle","Andrew W.",""],["Fausnaugh","Michael",""],["Kunimoto","Michelle",""],["Rowden","Pamela",""],["Vanderburg","Andrew",""],["Wohler","Bill",""],["Jenkins","Jon M.",""],["Latham","David W.",""],["Ricker","George R.",""],["Seager","Sara",""],["Winn","Joshua N.",""]]} +{"id":"2308.15573","submitter":"Mathieu Anel","authors":"Mathieu Anel, Georg Biedermann, Eric Finster, Andr\\'e Joyal","title":"Left-exact Localizations of $\\infty$-Topoi III: The Acyclic Product","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.CT math.AT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We define a commutative monoid structure on the poset of left-exact\nlocalizations of a higher topos, that we call the acyclic product. Our approach\nis anchored in a structural analogy between the poset of left-exact\nlocalizations of a topos and the poset of ideals of a commutative ring. The\nacyclic product is analogous to the product of ideals. The sequence of powers\nof a given left-exact localization defines a tower of localizations. We show\nhow this recovers the towers of Goodwillie calculus in the unstable homotopical\nsetting. We use this to describe the topoi of $n$-excisive functors as\nclassifying $n$-nilpotent objects.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:00:01 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Anel","Mathieu",""],["Biedermann","Georg",""],["Finster","Eric",""],["Joyal","Andr\u00e9",""]]} +{"id":"2308.15574","submitter":"Hongchao Zhang","authors":"Hongchao Zhang, Wen-Cong Gan, Yungui Gong, Anzhong Wang","title":"On the improved dynamics approach in loop quantum black holes","comments":"8 pages, 20 figures. arXiv admin note: text overlap with\n arXiv:2212.14535","journal-ref":null,"doi":null,"report-no":null,"categories":"gr-qc","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this brief communication, we consider the B\\\"ohmer-Vandersloot (BV) model\nof loop quantum black holes obtained from the improved dynamics approach. We\nadopt the Saini-Singh gauge, in which it was found analytically that the BV\nspacetime is geodesically complete. In this paper, we show that black/white\nhole horizons do not exist in this geodesically complete spacetime. Instead,\nthere exists only an infinite number of transition surfaces, which always\nseparate trapped regions from anti-trapped ones. Comments on the improved\ndynamics approach adopted in other models of loop quantum black holes are also\ngiven.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:00:49 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Zhang","Hongchao",""],["Gan","Wen-Cong",""],["Gong","Yungui",""],["Wang","Anzhong",""]]} +{"id":"2308.15575","submitter":"Xuwei Tan","authors":"Xuwei Tan, Yi-Jie Huang, Yaqian Li","title":"Prototype Fission: Closing Set for Robust Open-set Semi-supervised\n Learning","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.CV","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" Semi-supervised Learning (SSL) has been proven vulnerable to\nout-of-distribution (OOD) samples in realistic large-scale unsupervised\ndatasets due to over-confident pseudo-labeling OODs as in-distribution (ID). A\nkey underlying problem is class-wise latent space spreading from closed seen\nspace to open unseen space, and the bias is further magnified in SSL's\nself-training loops. To close the ID distribution set so that OODs are better\nrejected for safe SSL, we propose Prototype Fission(PF) to divide class-wise\nlatent spaces into compact sub-spaces by automatic fine-grained latent space\nmining, driven by coarse-grained labels only. Specifically, we form multiple\nunique learnable sub-class prototypes for each class, optimized towards both\ndiversity and consistency. The Diversity Modeling term encourages samples to be\nclustered by one of the multiple sub-class prototypes, while the Consistency\nModeling term clusters all samples of the same class to a global prototype.\nInstead of \"opening set\", i.e., modeling OOD distribution, Prototype Fission\n\"closes set\" and makes it hard for OOD samples to fit in sub-class latent\nspace. Therefore, PF is compatible with existing methods for further\nperformance gains. Extensive experiments validate the effectiveness of our\nmethod in open-set SSL settings in terms of successfully forming sub-classes,\ndiscriminating OODs from IDs and improving overall accuracy. Codes will be\nreleased.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:04:42 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Tan","Xuwei",""],["Huang","Yi-Jie",""],["Li","Yaqian",""]]} +{"id":"2308.15576","submitter":"Izak Snyman","authors":"I. Snyman","title":"The structure of quasiparticles in a local Fermi liquid","comments":"15 + 4 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.str-el","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Conduction electrons interacting with a dynamic impurity can give rise to a\nlocal Fermi liquid. The latter has the same low energy spectrum as an ideal\nFermi gas containing a static impurity. The Fermi liquids's elementary\nexcitations are however not bare electrons. In the vicinity of the impurity,\nthey are dressed by virtual particle-hole pairs. Here we study this dressing.\nAmong other things, we construct a mode-resolved measure of dressing. To\nevaluate it in position representation, we have to circumvent the limitations\nof the Numerical Renormalization Group, which discretizes the conduction band\nlogarithmically. We therefore extend Natural Orbital methods, that successfully\ncharacterize the ground state, to describe excitations. We demonstrate that the\ndressing profile shows nontrivial powerlaw decay at large distances. Our\nNatural Orbital methodology could lay the foundation for calculating the\nproperties of local Fermi liquid quasiparticles in nontrivial geometries such\nas disordered hosts or mesoscopic devices.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:05:52 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Snyman","I.",""]]} +{"id":"2308.15577","submitter":"Mark Zic","authors":"Mark P. Zic, Matthias S. Ikeda, Pierre Massat, Patrick M. Hollister,\n Linda Ye, Elliott W. Rosenberg, Joshua A. W. Straquadine, Brad J. Ramshaw,\n Ian R. Fisher","title":"Giant elastocaloric effect at low temperatures in TmVO$_4$ and\n implications for cryogenic cooling","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.str-el cond-mat.mtrl-sci","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Adiabatic decompression of para-quadrupolar materials has significant\npotential as a cryogenic cooling technology. We focus on TmVO$_4$, an\narchetypal material that undergoes a continuous phase transition to a\nferroquadrupole-ordered state at 2.15 K. Above the phase transition, each Tm\nion contributes an entropy of $k_B \\ln{2}$ due to the degeneracy of the crystal\nelectric field groundstate. Owing to the large magnetoelastic coupling, which\nis a prerequisite for a material to undergo a phase transition via the\ncooperative Jahn-Teller effect, this level splitting, and hence the entropy,\ncan be readily tuned by externally-induced strain. Using a dynamic technique in\nwhich the strain is rapidly oscillated, we measure the adiabatic elastocaloric\ncoefficient of single-crystal TmVO$_4$, and thus experimentally obtain the\nentropy landscape as a function of strain and temperature. The measurement\nconfirms the suitability of this class of materials for cryogenic cooling\napplications, and provides insight to the dynamic quadrupole strain\nsusceptibility.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:05:56 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Zic","Mark P.",""],["Ikeda","Matthias S.",""],["Massat","Pierre",""],["Hollister","Patrick M.",""],["Ye","Linda",""],["Rosenberg","Elliott W.",""],["Straquadine","Joshua A. W.",""],["Ramshaw","Brad J.",""],["Fisher","Ian R.",""]]} +{"id":"2308.15578","submitter":"Pranab Kumar Mondal","authors":"Pranab Kumar Mondal","title":"Chemiosomotic flow in a narrow fluidic channel","comments":"This draft contains 18 pages and 7 figures, which explain the\n underlying physics of chemiosmotic flow along a finite-sized slit channel","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.flu-dyn","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" A liquid volume containing dissolved solutes moves through a charged\nnanofluidic channel under the influence of the concentration gradient of the\nsolutes, non-trivially modulated by the electrostatic interaction between ionic\nliquid and charged surface. The available studies in this paradigm primarily\nfocus on either of diffusioosmosis or electrodiffusioosmosis modulated\nphysicochemical hydrodynamical phenomenon, essentially to obtain a net\nthroughput at the overlapping scales. Here, we develop a theoretical model that\naccounts for the induced pressure gradient stemming from the concentration\ngradient of the solutes alongside the axially varying electrical double layer\neffect in tandem and characterizes the chemiosmotic flow in a\nreservoir-connected nanofluidic system. Starting from the potential\ndistribution developed due to the solute gradient modulated electrical double\nlayer effect, we look at the effect of pertinent physicochemical parameters and\ntheir eventual manifestations onto the purely chemiosmotic transport, aptly\ndescribed in this endeavor. We analytically establish a chemiosmotic velocity\nscale from a macroscopic viewpoint, relating flow velocity with the relevant\nparameters, and uniquely measuring the magnitude of chemiosmotic velocity. A\ncloser as well as consistent agreement on theoretical predictions with the\ncorresponding full-scale simulated results, both in the limit and beyond the\nDebye-Huckel approximation, substantiates the efficacy of our theory.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:12:28 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Mondal","Pranab Kumar",""]]} +{"id":"2308.15579","submitter":"Elijah Pelofske","authors":"Elijah Pelofske, Andreas B\\\"artschi, Stephan Eidenbenz, Bryan Garcia,\n Boris Kiefer","title":"Probing Quantum Telecloning on Superconducting Quantum Processors","comments":null,"journal-ref":null,"doi":null,"report-no":"LA-UR-23-29397","categories":"quant-ph cs.DS cs.ET","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Quantum information can not be perfectly cloned, but approximate copies of\nquantum information can be generated. Quantum telecloning combines approximate\nquantum cloning, more typically referred as quantum cloning, and quantum\nteleportation. Quantum telecloning allows approximate copies of quantum\ninformation to be constructed by separate parties, using the classical results\nof a Bell measurement made on a prepared quantum telecloning state. Quantum\ntelecloning can be implemented as a circuit on quantum computers using a\nclassical co-processor to compute classical feed forward instructions using if\nstatements based on the results of a mid-circuit Bell measurement in real time.\nWe present universal, symmetric, optimal $1 \\rightarrow M$ telecloning\ncircuits, and experimentally demonstrate these quantum telecloning circuits for\n$M=2$ up to $M=10$, natively executed with real time classical control systems\non IBM Quantum superconducting processors, known as dynamic circuits. We\nperform the cloning procedure on many different message states across the Bloch\nsphere, on $7$ IBM Quantum processors, optionally using the error suppression\ntechnique X-X sequence digital dynamical decoupling. Two circuit optimizations\nare utilized, one which removes ancilla qubits for $M=2, 3$, and one which\nreduces the total number of gates in the circuit but still uses ancilla qubits.\nParallel single qubit tomography with MLE density matrix reconstruction is used\nin order to compute the mixed state density matrices of the clone qubits, and\nclone quality is measured using quantum fidelity. These results present one of\nthe largest and most comprehensive NISQ computer experimental analyses on\n(single qubit) quantum telecloning to date. The clone fidelity sharply\ndecreases to $0.5$ for $M > 5$, but for $M=2$ we are able to achieve a mean\nclone fidelity of up to $0.79$ using dynamical decoupling.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:12:31 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Pelofske","Elijah",""],["B\u00e4rtschi","Andreas",""],["Eidenbenz","Stephan",""],["Garcia","Bryan",""],["Kiefer","Boris",""]]} +{"id":"2308.15580","submitter":"Vladlen Timorin","authors":"Alexander Blokh, Lex Oversteegen, and Vladlen Timorin","title":"Immediate renormalization of cubic complex polynomials with empty\n rational lamination","comments":"26 pages, 1 figure; accepted to a special issue of the MMJ dedicated\n to Yulij Ilyashenko's 80th Birthday. arXiv admin note: substantial text\n overlap with arXiv:2102.10325","journal-ref":null,"doi":null,"report-no":null,"categories":"math.DS","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" A cubic polynomial $P$ with a non-repelling fixed point $b$ is said to be\nimmediately renormalizable if there exists a (connected) QL invariant filled\nJulia set $K^*$ such that $b\\in K^*$. In that case, exactly one critical point\nof $P$ does not belong to $K^*$. We show that if, in addition, the Julia set of\n$P$ has no (pre)periodic cutpoints, then this critical point is recurrent.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:12:31 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Blokh","Alexander",""],["Oversteegen","Lex",""],["Timorin","Vladlen",""]]} +{"id":"2308.15581","submitter":"David Moutard","authors":"David Moutard, Renee Ludlam, Javier A. Garc\\'ia, Diego Altamirano,\n Douglas J. K. Buisson, Edward M. Cackett, J\\'er\\^ome Chenevez, Nathalie\n Degenaar, Andrew C. Fabian, Jeroen Homan, Amruta Jaodand, Sean N. Pike,\n Aarran W. Shaw, Tod E. Strohmayer, John A. Tomsick, Benjamin M. Coughenour","title":"Simultaneous NICER and NuSTAR Observations of the Ultra-compact X-ray\n Binary 4U 0614+091","comments":"14 Pages, 6 Figures, 6 Tables, Accepted for publication in ApJ","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.HE","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We present the first joint NuSTAR and NICER observations of the ultra-compact\nX-ray binary (UCXB) 4U 0614+091. This source shows quasi-periodic flux\nvariations on the timescale of ~days. We use reflection modeling techniques to\nstudy various components of the accretion system as the flux varies. We find\nthat the flux of the reflected emission and the thermal components representing\nthe disk and the compact object trend closely with the overall flux. However,\nthe flux of the power-law component representing the illuminating X-ray corona\nscales in the opposite direction, increasing as the total flux decreases.\nDuring the lowest flux observation, we see evidence of accretion disk\ntruncation from roughly 6 gravitational radii to 11.5 gravitational radii. This\nis potentially analogous to the truncation seen in black hole low-mass X-ray\nbinaries, which tends to occur during the low/hard state at sufficiently low\nEddington ratios.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:15:41 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Moutard","David",""],["Ludlam","Renee",""],["Garc\u00eda","Javier A.",""],["Altamirano","Diego",""],["Buisson","Douglas J. K.",""],["Cackett","Edward M.",""],["Chenevez","J\u00e9r\u00f4me",""],["Degenaar","Nathalie",""],["Fabian","Andrew C.",""],["Homan","Jeroen",""],["Jaodand","Amruta",""],["Pike","Sean N.",""],["Shaw","Aarran W.",""],["Strohmayer","Tod E.",""],["Tomsick","John A.",""],["Coughenour","Benjamin M.",""]]} +{"id":"2308.15582","submitter":"Claire Zwicker","authors":"Claire Zwicker, Aaron M. Geller, Anna C. Childs, Erin Motherway, Ted\n von Hippel","title":"Investigating Mass Segregation of the Binary Stars in the Open Cluster\n NGC 6819","comments":"6 pages, 4, figures, submitted to ApJL","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.SR astro-ph.GA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We search for mass segregation in the intermediate-aged open cluster NGC 6819\nwithin a carefully identified sample of likely cluster members. Using\nphotometry from the Gaia, 2MASS, and Pan-STARRS surveys as inputs for a\nBayesian statistics software suite, BASE-9, we identify a rich population of\n(photometric) binaries and derive posterior distributions for the cluster age,\ndistance, metallicity and reddening as well as star-by-star photometric\nmembership probabilities, masses and mass ratios (for binaries). Within our\nentire sample, we find 2781 likely cluster members and 831 binaries. We select\na main-sequence 'primary sample' with 14.85 < G < 19.5 containing 1515 likely\ncluster members and 256 binaries with mass ratios q > 0.5, to investigate for\nmass segregation. Within this primary sample, we find the binary radial\ndistribution is significantly shifted toward the cluster center as compared to\nthe single stars, resulting in a binary fraction that increases significantly\ntoward the cluster core. Furthermore, we find that within the binary sample,\nmore massive binaries have more centrally concentrated radial distributions\nthan less massive binaries. The same is true for the single stars. As the\ncluster has persisted through several half-mass relaxation times, and the\nexpected mass-segregation timescale for stars in our primary sample is also\nsignificantly shorter than the cluster age, we interpret these results as\nstrong evidence for mass segregation in the cluster. Importantly, this is the\nfirst study to investigate mass segregation of the binaries in the open cluster\nNGC 6819.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:22:00 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Zwicker","Claire",""],["Geller","Aaron M.",""],["Childs","Anna C.",""],["Motherway","Erin",""],["von Hippel","Ted",""]]} +{"id":"2308.15583","submitter":"Chiaki Kobayashi","authors":"Chiaki Kobayashi, Andrea Ferrara","title":"Rapid Chemical Enrichment by Intermittent Star Formation in GN-z11","comments":"8 pagaes, 4 figures, 1 table, submitted to The Astrophysical Journal\n Letters","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA astro-ph.HE astro-ph.SR","license":"http://creativecommons.org/publicdomain/zero/1.0/","abstract":" We interpret the peculiar super-solar nitrogen abundance recently reported by\nthe James Webb Space Telescope observations for GN-z11 (z=10.6) using our\nstate-of-the-art chemical evolution models. The observed CNO ratios can be\nsuccessfully reproduced -- independently of the adopted initial mass function,\nnucleosynthesis yields and presence of supermassive ($>$1000$M_\\odot$) stars --\nif the galaxy has undergone an intermittent star formation history with a\nquiescent phase lasting $\\sim$100 Myr, separating two strong star bursts.\nImmediately after the second burst, Wolf-Rayet stars (up to $120M_\\odot$)\nbecome the dominant enrichment source, also temporarily ($<$1 Myr) enhancing\nparticular elements (N, F, Na, Al) and isotopes ($^{13}$C, $^{18}$O).\nAlternative explanations involving (i) single burst models, also including very\nmassive stars and/or pair-instability supernovae, or (ii) pre-enrichment\nscenarios fail to match the data. Feedback-regulated, intermittent star\nformation might be common in early systems. Elemental abundances can be used to\ntest this hypothesis, and to get new insights on nuclear and stellar\nastrophysics.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:25:54 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kobayashi","Chiaki",""],["Ferrara","Andrea",""]]} +{"id":"2308.15584","submitter":"Alan Williams","authors":"Alan Williams, Alexander Scheinker, En-Chuan Huang, Charles Taylor,\n Miroslav Krstic","title":"Experimental Safe Extremum Seeking for Accelerators","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.acc-ph math.OC","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We demonstrate the recent designs of Safe Extremum Seeking (Safe ES) on the 1\nkilometer-long charged particle accelerator at the Los Alamos Neutron Science\nCenter (LANSCE). Safe ES is a modification of ES which, in addition to\nminimizing an analytically unknown cost, also employs a safety filter based on\nan analytically unknown control barrier function (CBF) safety metric.\nAccelerator tuning is necessitated by the accelerators being large, with many\ndrifting parameters due to thermal effects and degradation. At the same time,\nsafe operation (the maintenance of state constraints) is crucial, as damage\nbrings astronomical costs, both financially and in operation downtime. Our\nmeasured (but analytically unknown) safety metric is the beam current. We\nperform multivariable Safe ES on three accelerator applications, in which we\nadapt 4, 6, and 3 magnet strength parameters, respectively. Two of the three\napplications are for validated simulation models of beamlines at LANSCE: the\nfirst for the Proton Radiography (pRad) beamline of 800 MeV protons for spot\nsize tuning; the second on a high performance code, HPSim, for tuning the low\nenergy beam transport (LEBT) region of of 750 keV protons. The third is an\nexperimental tuning of the steering magnets in the LEBT at LANSCE.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:26:43 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Williams","Alan",""],["Scheinker","Alexander",""],["Huang","En-Chuan",""],["Taylor","Charles",""],["Krstic","Miroslav",""]]} +{"id":"2308.15585","submitter":"Dmitrii V. Pasechnik","authors":"Dmitrii V. Pasechnik","title":"On hyperovals in $Q^+(6,4)$","comments":"3 pages, LaTeX, GAP code included","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO math.GR","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" According to a computer search conducted by the author and described in [7],\nin $Q^+(6, 4)$ there are two types of hyperovals, having 72 and 96 points,\nrespectively. Here we give geometric descriptions for these examples.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:28:54 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Pasechnik","Dmitrii V.",""]]} +{"id":"2308.15586","submitter":"Qiaoya Wu","authors":"Qiaoya Wu, Yue Shen","title":"Improved Redshifts for DESI EDR Quasars","comments":"3 pages, 1 figure. Submitted to RNAAS, comments welcome!","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA astro-ph.CO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The Dark Energy Spectroscopic Instrument (DESI) survey will provide optical\nspectra for $\\sim 3$ million quasars. Accurate redshifts for these quasars will\nfacilitate a broad range of science applications. Here we provide improved\nsystemic redshift estimates for the $\\sim 95$k quasars included in the DESI\nEarly Data Release (EDR), based on emission-line fits to the quasar spectra.\nThe majority of the DESI pipeline redshifts are reliable. However, $\\sim 19\\%$\nof the EDR quasars have pipeline redshifts that deviate from our new redshifts\nby $>500\\,{\\rm km\\,s^{-1}}$. We use composite quasar spectra to demonstrate the\nimprovement of our redshift estimates, particularly at $z>1$. These new\nredshifts are available at\n\\url{https://github.com/QiaoyaWu/DESI_EDR_qsofit/blob/main/DESI_EDR_Aug29_redshift_only.fits}.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:31:08 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Wu","Qiaoya",""],["Shen","Yue",""]]} +{"id":"2308.15587","submitter":"Werner Sauter","authors":"Jo\\~ao Vitor Bulh\\~oes da Silva and Werner Krambeck Sauter","title":"Production of bound states of magnetic monopoles in high energy\n collisions at LHC","comments":"16 pages, 7 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this work, we present the studies carried out for the production of the\nmonopolium at the LHC in ultraperipheral collisions for the processes $pp$ and\n$PbPb$. The monopolium is described by the bound state of a\nmonopole-antimonopole pair, and we assume the study of the monopole in this\ncharacteristic state because the coupling constant is very large, which allows\nus to suggest that this exotic particle can be produced in the bound state. The\nmonopolium is defined by a wave function arising from the numerical solution of\nthe Schr\\\"{o}dinger equation for the modified Cornell potential. We used the\nphoton fusion production mechanism, with the Weizs\\\"{a}cker-Williams and\nDrees-Zeppenfeld expressions to describe the lead and proton equivalent photon\ndistributions. We estimate a high production rate of monopolium production for\n$pp$ collisions with $\\sqrt{s}=14$ TeV and $PbPb$ collisions with\n$\\sqrt{s}=5.5$ TeV in LHC.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:31:32 GMT"}],"update_date":"2023-08-31","authors_parsed":[["da Silva","Jo\u00e3o Vitor Bulh\u00f5es",""],["Sauter","Werner Krambeck",""]]} +{"id":"2308.15588","submitter":"Guangming Jing","authors":"Guangming Jing","title":"On Edge Coloring of Multigraphs","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Let $\\Delta(G)$ and $\\chi'(G)$ be the maximum degree and chromatic index of a\ngraph $G$, respectively.\n Appearing in different format, Gupta\\,(1967), Goldberg\\,(1973),\nAndersen\\,(1977), and Seymour\\,(1979) made the following conjecture: Every\nmultigraph $G$ satisfies $\\chi'(G) \\le \\max\\{ \\Delta(G) + 1, \\Gamma(G) \\}$,\nwhere $\\Gamma(G) = \\max_{H \\subseteq G} \\left\\lceil \\frac{ |E(H)| }{ \\lfloor\n\\tfrac{1}{2} |V(H)| \\rfloor} \\right\\rceil$ is the density of $G$. In this\npaper, we present a polynomial-time algorithm for coloring any multigraph with\n$\\max\\{ \\Delta(G) + 1, \\Gamma(G) \\}$ many colors, confirming the conjecture.\nSince $\\chi'(G)\\geq \\max\\{ \\Delta(G), \\Gamma(G) \\}$, this algorithm gives a\nproper edge coloring that uses at most one more color than the optimum. As\ndetermining the chromatic index of an arbitrary graph is $NP$-hard, the $\\max\\{\n\\Delta(G) + 1, \\Gamma(G) \\}$ bound is best possible for efficient proper edge\ncoloring algorithms on general multigraphs, unless $P=NP$.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:32:21 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Jing","Guangming",""]]} +{"id":"2308.15589","submitter":"Christian Reiher","authors":"Christian Reiher and Vojt\\v{e}ch R\\\"odl","title":"The girth Ramsey theorem","comments":"27 beautiful figures","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Given a hypergraph $F$ and a number of colours $r$, there exists a hypergraph\n$H$ of the same girth satisfying $H\\longrightarrow (F)_r$. Moreover, for every\nlinear hypergraph $F$ there exists a Ramsey hypergraph $H$ that locally looks\nlike a forest of copies of $F$.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:33:59 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Reiher","Christian",""],["R\u00f6dl","Vojt\u011bch",""]]} +{"id":"2308.15590","submitter":"Petr Chmel","authors":"Petr Chmel and V\\'it Jel\\'inek","title":"String graphs with precise number of intersections","comments":"Appears in the Proceedings of the 31st International Symposium on\n Graph Drawing and Network Visualization (GD 2023)","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO cs.DM","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" A string graph is an intersection graph of curves in the plane. A $k$-string\ngraph is a graph with a string representation in which every pair of curves\nintersects in at most $k$ points. We introduce the class of $(=k)$-string\ngraphs as a further restriction of $k$-string graphs by requiring that every\ntwo curves intersect in either zero or precisely $k$ points. We study the\nhierarchy of these graphs, showing that for any $k\\geq 1$, $(=k)$-string graphs\nare a subclass of $(=k+2)$-string graphs as well as of $(=4k)$-string graphs;\nhowever, there are no other inclusions between the classes of $(=k)$-string and\n$(=\\ell)$-string graphs apart from those that are implied by the above rules.\nIn particular, the classes of $(=k)$-string graphs and $(=k+1)$-string graphs\nare incomparable by inclusion for any $k$, and the class of $(=2)$-string\ngraphs is not contained in the class of $(=2\\ell+1)$-string graphs for any\n$\\ell$.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:36:02 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Chmel","Petr",""],["Jel\u00ednek","V\u00edt",""]]} +{"id":"2308.15591","submitter":"Suhan Zhong","authors":"Jiawang Nie and Suhan Zhong","title":"Distributionally Robust Optimization with Polynomial Robust Constraints","comments":"20 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.OC","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This paper studies distributionally robust optimization (DRO) with polynomial\nrobust constraints. We give a Moment-SOS relaxation approach to solve the DRO.\nThis reduces to solving linear conic optimization with semidefinite\nconstraints. When the DRO problem is SOS-convex, we show that it is equivalent\nto the linear conic relaxation and it can be solved by the Moment-SOS\nalgorithm. For nonconvex cases, we also give concrete conditions such that the\nDRO can be solved globally. Numerical experiments are given to show the\nefficiency of the method.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:37:38 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Nie","Jiawang",""],["Zhong","Suhan",""]]} +{"id":"2308.15592","submitter":"Ahmad Borzou","authors":"Ahmad Borzou","title":"Non-local Interactions are Essential Elements for Dark Matter Halo\n Stability: A Cross-Model Study","comments":"9 pages, 1 figure. Accepted for publication by Universe","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.CO astro-ph.GA hep-th","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" This paper introduces a comprehensive methodology for examining the stability\nof dark matter (DM) halos, emphasizing the necessity for non-local\ninter-particle interactions, whether they are fundamental or effective in\nnature, to maintain halo stability. We highlight the inadequacy of vanilla cold\ncollision-less DM models in forecasting a stable halo without considering a\n\"non-local\" interaction in the halo's effective free energy, which could\npotentially arise from factors like baryonic feedback, self-interactions, or\nthe intrinsic quantum characteristics of dark particles. The stability\nprerequisite necessitates significant effective interactions between any two\npoints within the halo, regardless of their distance from the center. The\nmethodology proposed herein offers a systematic framework to scrutinize the\nstability of various DM models and refine their parameter spaces. We deduce\nthat DM halos within a model, where the deviation from the standard cold\ncollision-less framework is confined to regions near the halo center, are\nunlikely to exhibit stability in their outer sectors. In our study, we\ndemonstrate that the issue of instability within DM halos cannot be addressed\nadequately using perturbative quantum effects. This issue is less pronounced\nfor fermionic DM but suffers from a higher degree of severity when considering\nbosonic DM. We find that halos made of bosons with notable quantum effects have\nsharp edges, while those made of fermions show more diffuse boundaries\nextending toward infinity. We also explore the broadest form of the effective\nfree-energy around a chosen mass profile.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:38:10 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Borzou","Ahmad",""]]} +{"id":"2308.15593","submitter":"Amiram Braun","authors":"Amiram Braun","title":"Finite groups, smooth invariants, and isolated quotient singularities","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.AC math.AG math.RT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Let G < SL(V) be a finite group, V is finite dimensional over a field F,\np=char F and S(V) is the symmetric algebra of V. We determine when the subring\nof G-invariants S(V)^G is a polynomial ring. As a consequence, we classify, if\nF is algebraically closed, all S(V)^G which are isolated singularities. We show\nthat the completion of S(V)^G, at its unique graded maximal ideal, is\nisomorphic to the completion of S(W)^H, where (H,W) is a reduction mod p of a\nmember of the Zassenhaus-Vincent-Wolf list of complex isolated quotient\nsingularities.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:38:22 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Braun","Amiram",""]]} +{"id":"2308.15594","submitter":"Fran\\c{c}ois Charton","authors":"Fran\\c{c}ois Charton","title":"Can transformers learn the greatest common divisor?","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" I investigate the capability of small transformers to compute the greatest\ncommon divisor (GCD) of two positive integers. When the training distribution\nand the representation base are carefully chosen, models achieve 98% accuracy\nand correctly predict 91 of the 100 first GCD. Model predictions are\ndeterministic and fully interpretable. During training, the models learn to\ncluster input pairs with the same GCD, and classify them by their divisors.\nBasic models, trained from uniform operands encoded on small bases, only\ncompute a handful of GCD (up to 38 out of 100): the products of divisors of the\nbase. Longer training and larger bases allow some models to \"grok\" small prime\nGCD. Training from log-uniform operands boosts performance to 73 correct GCD,\nand balancing the training distribution of GCD, from inverse square to\nlog-uniform, to 91 GCD. Training models from a uniform distribution of GCD\nbreaks the deterministic model behavior.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:38:41 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Charton","Fran\u00e7ois",""]]} +{"id":"2308.15595","submitter":"Roberto Alvarenga","authors":"Roberto Alvarenga and Herivelto Borges","title":"On the number of elements with prescribed norm and trace","comments":"21 pages, comments are welcome","journal-ref":null,"doi":null,"report-no":null,"categories":"math.NT math.AG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Let F_q be the finite field with cardinality q, where q is a prime power.\nGiven a finite field extension F_q^n over F_q and a,b in (F_q)^{*}, we\ninvestigate in this article the number N_n(a,b) of elements in F_q^n whose norm\nequals a and trace equals b. Our approach to probe N_n(a,b) is to connect it\nwith the number of rational points on certain Artin-Schreier curve. After\nestablish an improvement of the Hasse-Weil bound for that Artin-Schreier curve,\nwe improve the known estimates for N_n(a,b) when (roughly speaking) n \\geq\n\\sqrt{q}-1. Moreover, we use this approach to improve the bound given by Moisio\nand Wan for the number of rational points on the toric Calabi-Yau variety\nstudied by Rojas-Leon and Wan in 2011. We finish the paper with explicit\ncalculations of N_n(a,b) and an application to the number of irreducible monic\npolynomials in an arithmetic progression.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:39:20 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Alvarenga","Roberto",""],["Borges","Herivelto",""]]} +{"id":"2308.15596","submitter":"Lu Yang","authors":"Lu Yang","title":"Double Probability Integral Transform Residuals for Regression Models\n with Discrete Outcomes","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"stat.ME stat.AP","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" The assessment of regression models with discrete outcomes is challenging and\nhas many fundamental issues. With discrete outcomes, standard regression model\nassessment tools such as Pearson and deviance residuals do not follow the\nconventional reference distribution (normal) under the true model, calling into\nquestion the legitimacy of model assessment based on these tools. To fill this\ngap, we construct a new type of residuals for general discrete outcomes,\nincluding ordinal and count outcomes. The proposed residuals are based on two\nlayers of probability integral transformation. When at least one continuous\ncovariate is available, the proposed residuals closely follow a uniform\ndistribution (a normal distribution after transformation) under the correctly\nspecified model. One can construct visualizations such as QQ plots to check the\noverall fit of a model straightforwardly, and the shape of QQ plots can further\nhelp identify possible causes of misspecification such as overdispersion. We\nprovide theoretical justification for the proposed residuals by establishing\ntheir asymptotic properties. Moreover, in order to assess the mean structure\nand identify potential covariates, we develop an ordered curve as a\nsupplementary tool, which is based on the comparison between the partial sum of\noutcomes and of fitted means. Through simulation, we demonstrate empirically\nthat the proposed tools outperform commonly used residuals for various model\nassessment tasks. We also illustrate the workflow of model assessment using the\nproposed tools in data analysis.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:40:35 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Yang","Lu",""]]} +{"id":"2308.15597","submitter":"David Cutler","authors":"David J. Cutler, Kiana Jodeiry, Andrew J. Bass and Michael P. Epstein","title":"The Quantitative Genetics of Human Disease: 1 Foundations","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"q-bio.QM","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" In this the first of an anticipated four paper series, fundamental results of\nquantitative genetics are presented from a first principles approach. While\nnone of these results are in any sense new, they are presented in extended\ndetail to precisely distinguish between definition and assumption, with a\nfurther emphasis on distinguishing quantities from their usual approximations.\nTerminology frequently encountered in the field of human genetic disease\nstudies will be defined in terms of their quantitive genetics form. Methods for\nestimation of both quantitative genetics and the related human genetics\nquantities will be demonstrated. While practitioners in the field of human\nquantitative disease studies may find this work pedantic in detail, the\nprinciple target audience for this work is trainees reasonably familiar with\npopulation genetics theory, but with less experience in its application to\nhuman disease studies. We introduce much of this formalism because in later\npapers in this series, we demonstrate that common areas of confusion in human\ndisease studies can be resolved be appealing directly to these formal\ndefinitions. The second paper in this series will discuss polygenic risk\nscores. The third paper will concern the question of \"missing\" heritability and\nthe role interactions may play. The fourth paper will discuss sexually\ndimorphic disease and the potential role of the X chromosome.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:42:18 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Cutler","David J.",""],["Jodeiry","Kiana",""],["Bass","Andrew J.",""],["Epstein","Michael P.",""]]} +{"id":"2308.15598","submitter":"Yulia Alexandr","authors":"Yulia Alexandr and Serkan Ho\\c{s}ten","title":"Maximum information divergence from linear and toric models","comments":"33 pages, 6 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"math.ST cs.IT math.AG math.IT stat.TH","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We study the problem of maximizing information divergence from a new\nperspective using logarithmic Voronoi polytopes. We show that for linear\nmodels, the maximum is always achieved at the boundary of the probability\nsimplex. For toric models, we present an algorithm that combines the\ncombinatorics of the chamber complex with numerical algebraic geometry. We pay\nspecial attention to reducible models and models of maximum likelihood degree\none.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:42:54 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Alexandr","Yulia",""],["Ho\u015ften","Serkan",""]]} +{"id":"2308.15599","submitter":"Alec Lessing","authors":"Michael M. Shara, Alec M. Lessing, Rebekah Hounsell, Shifra Mandel,\n David Zurek, Matthew J. Darnley, Or Graur, Yael Hillman, Eileen T. Meyer,\n Joanna Mikolajewska, James D. Neill, Dina Prialnik, William Sparks","title":"A 9-Month $\\textit{Hubble Space Telescope}$ Near-UV Survey of M87. I.\n Light and Color Curves of 94 Novae, and a Re-determination of the Nova Rate","comments":"Submitted to ApJSS 3 Tables, 107 Figures, 180 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.SR astro-ph.GA astro-ph.HE","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" M87 has been monitored with a cadence of 5 days over a 9 month-long span\nthrough the near-ultraviolet (NUV:F275W) and optical (F606W) filters of the\nWide Field Camera 3 (WFC3) of the HST. This unprecedented dataset yields the\nNUV and optical light and color curves of 94 M87 novae, characterizing the\noutburst and decline properties of the largest extragalactic nova dataset in\nthe literature (after M31). We test and confirm nova modelers' prediction that\nrecurrent novae cannot erupt more frequently that once every 45 days; show that\nthere are zero rapidly recurring novae in the central $\\sim$ 1/3 of M87 with\nrecurrence times $ < $ 130 days; demonstrate that novae closely follow the\nK-band light of M87 to within a few arcsec of the galaxy nucleus; show that\nnova NUV light curves are as heterogeneous as their optical counterparts, and\nusually peak 5 to 30 days after visible light maximum; determine our\nobservations' detection completeness to be in the 90-96\\% range; and measure\nthe rate Rnova of nova eruptions in M87 as $325_{-38}^{+38}$/yr. The\ncorresponding luminosity-specific classical nova rate for this galaxy is\n$7.06_{-.83}^{+.83}/yr/10^{10}L_\\odot,_{K}$. These rates confirm that\ngroundbased observations of extragalactic novae miss most faint, fast novae and\nthose near the centers of galaxies.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:44:47 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Shara","Michael M.",""],["Lessing","Alec M.",""],["Hounsell","Rebekah",""],["Mandel","Shifra",""],["Zurek","David",""],["Darnley","Matthew J.",""],["Graur","Or",""],["Hillman","Yael",""],["Meyer","Eileen T.",""],["Mikolajewska","Joanna",""],["Neill","James D.",""],["Prialnik","Dina",""],["Sparks","William",""]]} +{"id":"2308.15600","submitter":"Gennady Romanov","authors":"Gennady Romanov (1) ((1) Fermi National Accelerator Laboratory)","title":"Resonant dynamics of one-side multipactor on dielectric surface","comments":"To be published in Physics of Plasmas. arXiv admin note: text overlap\n with arXiv:2202.07709","journal-ref":null,"doi":null,"report-no":"FERMILAB-PUB-23-371-TD","categories":"physics.plasm-ph physics.acc-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Breakdown of dielectric RF windows is an important issue for particle\naccelerators and high-power RF sources. One of the common reasons for RF window\nfailure is the multipactor on a dielectric surface. The multipactor may be\nresponsible for excessive heating of the dielectric and discharge of charges\nthat accumulated in the ceramic due to secondary emission. In this study,\ncomprehensive self-consistent PIC simulations with space charge effect were\nperformed. This was to better understand the dynamic of one-side multipactor\ndevelopment and floating potential on the dielectric induced by the emission.\nThe important correlations between the multipactor parameters at saturation,\nthe secondary emission properties of dielectric, and the applied RF field\nparameters have been found, which led to the conclusion that the dynamics of\none-side multipactor on dielectric is a resonant phenomenon.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:46:05 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Romanov","Gennady","","Fermi National Accelerator Laboratory"]]} +{"id":"2308.15601","submitter":"Panagiotis Athanasopoulos","authors":"Panagiotis Athanasopoulos","title":"Cognitive dissonance or p-prims? Towards identifying the best way to\n overcome misconceptions in physics","comments":"11 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.ed-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this classroom-based action-research project, I compared the following two\napproaches to check their effectiveness in helping students overcome physics\nmisconceptions: Inducing cognitive dissonance or gradually building on\nstudents' previous knowledge activating the relevant phenomenological\nprimitives (p-prims). This took place over a two-lesson sequence (each an hour\nlong) using year 8 (12 years old) and year 9 (13 years old) top set students\n(N=87 in total), in the context of Newton's first law. Results were better for\nboth year groups when inducing cognitive dissonance, which seems to be more\neffective not only with surface-level learning, but deep-learning as well.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:46:38 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Athanasopoulos","Panagiotis",""]]} +{"id":"2308.15602","submitter":"Nikolai Merkel","authors":"Nikolai Merkel, Daniel Stoll, Ruben Mayer, Hans-Arno Jacobsen","title":"An Experimental Comparison of Partitioning Strategies for Distributed\n Graph Neural Network Training","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DC cs.LG","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Recently, graph neural networks (GNNs) have gained much attention as a\ngrowing area of deep learning capable of learning on graph-structured data.\nHowever, the computational and memory requirements for training GNNs on\nlarge-scale graphs can exceed the capabilities of single machines or GPUs,\nmaking distributed GNN training a promising direction for large-scale GNN\ntraining. A prerequisite for distributed GNN training is to partition the input\ngraph into smaller parts that are distributed among multiple machines of a\ncompute cluster. Although graph partitioning has been extensively studied with\nregard to graph analytics and graph databases, its effect on GNN training\nperformance is largely unexplored.\n In this paper, we study the effectiveness of graph partitioning for\ndistributed GNN training. Our study aims to understand how different factors\nsuch as GNN parameters, mini-batch size, graph type, features size, and\nscale-out factor influence the effectiveness of graph partitioning. We conduct\nexperiments with two different GNN systems using vertex and edge partitioning.\nWe found that graph partitioning is a crucial pre-processing step that can\nheavily reduce the training time and memory footprint. Furthermore, our results\nshow that invested partitioning time can be amortized by reduced GNN training,\nmaking it a relevant optimization.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:47:31 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Merkel","Nikolai",""],["Stoll","Daniel",""],["Mayer","Ruben",""],["Jacobsen","Hans-Arno",""]]} +{"id":"2308.15603","submitter":"Mar\\'ia Gracia Cornet","authors":"Mar\\'ia Gracia Cornet and Pablo Torres","title":"$k$-tuple domination on Kneser graphs","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this paper, we continue the study of different types of dominating sets in\nKneser graphs. We focus on $k$-tuple dominating sets, $2$-packings and the\nassociated graph parameters $k$-tuple domination number and $2$-packing number.\nIn particular, we determine the Kneser graphs $K(n,r)$ with $k$-tuple\ndomination number exactly $k+r$ and find all the minimum sized $k$-tuple\ndominating sets for these graphs, which generalize results for dominating sets\nin Kneser graphs. Besides, we give a characterization of the $k$-tuple\ndominating sets of $K(n,2)$ in terms of the occurrences of the elements in\n$[n]$, which allows us to obtain minimum sized $k$-tuple dominating sets for\nalmost all positive integers $n\\geq 4$. Finally, we compute both parameters for\ncertain Kneser graphs, and specifically in odd graphs we show that these\ninvariants are extremely related with perfect $1$-codes and Steiner systems.\n Keywords: Kneser graphs, $k$-tuple dominating set.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:50:17 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Cornet","Mar\u00eda Gracia",""],["Torres","Pablo",""]]} +{"id":"2308.15604","submitter":"Robert Conte","authors":"Robert Conte (ENS Paris-Saclay)","title":"On a dynamical system linked to the BKL scenario","comments":"9 pages, to appear, Physica scripta","journal-ref":null,"doi":null,"report-no":null,"categories":"gr-qc nlin.SI","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We consider the six-dimensional dynamical system in three components\nintroduced by Ryan to describe the scenario of Belinskii, Khalatnikov and\nLifshitz to the cosmological singularity when the spatial metric tensor is not\ndiagonal. Despite its nonintegrability, recently proven by Goldstein and\nPiechocki, the three four-dimensional systems defined by canceling one of the\nthree components happen to be integrable. We express their general solution as\na rational function of, respectively, two exponential functions, a third\nPainlev\\'e function, two exponential functions.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:53:57 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Conte","Robert","","ENS Paris-Saclay"]]} +{"id":"2308.15605","submitter":"Fabien Roger","authors":"Fabien Roger, Ryan Greenblatt, Max Nadeau, Buck Shlegeris, Nate Thomas","title":"Measurement Tampering Detection Benchmark","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" When training powerful AI systems to perform complex tasks, it may be\nchallenging to provide training signals which are robust to optimization. One\nconcern is measurement tampering, where the AI system manipulates multiple\nmeasurements to create the illusion of good results instead of achieving the\ndesired outcome. In this work, we build four new text-based datasets to\nevaluate measurement tampering detection techniques on large language models.\nConcretely, given sets of text inputs and measurements aimed at determining if\nsome outcome occurred, as well as a base model able to accurately predict\nmeasurements, the goal is to determine if examples where all measurements\nindicate the outcome actually had the outcome occur, or if this was caused by\nmeasurement tampering. We demonstrate techniques that outperform simple\nbaselines on most datasets, but don't achieve maximum performance. We believe\nthere is significant room for improvement for both techniques and datasets, and\nwe are excited for future work tackling measurement tampering.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:54:37 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Roger","Fabien",""],["Greenblatt","Ryan",""],["Nadeau","Max",""],["Shlegeris","Buck",""],["Thomas","Nate",""]]} +{"id":"2308.15606","submitter":"Carmelo Rosales-Guzm\\'an Dr.","authors":"Mitchell A. Cox and Carmelo Rosales Guzm\\'an","title":"Real-time stokes polarimetry based on a polarisation camera","comments":"9 pages, 3 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.optics physics.ins-det","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" This lab note introduces the \"Stokes Camera,\" a simple and novel experimental\narrangement for real-time measurement of spatial amplitude and polarisation and\nthus spatially resolved Stokes parameters. It uses a polarisation sensitive\ncamera and a fixed quarter-wave plate, providing a one-shot, digital solution\nfor polarisation measurement that is only limited by the frame rate of the\ncamera and the computation speed of the provided code. The note also provides\nbackground information on relevant polarisation theory and vector vortex beams,\nwhich are used as a demonstration of the device.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:56:52 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Cox","Mitchell A.",""],["Guzm\u00e1n","Carmelo Rosales",""]]} +{"id":"2308.15607","submitter":"Soren Galatius","authors":"Soren Galatius, Oscar Randal-Williams","title":"The Alexander trick for homology spheres","comments":"14 pages","journal-ref":null,"doi":null,"report-no":"CPH-GEOTOP-DNRF151","categories":"math.GT math.AT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We show that the group of homeomorphisms of a compact contractible\n$d$-manifold which fix the boundary is contractible, as long as $d \\geq 6$. We\ndeduce this from a strong uniqueness statement for one-sided $h$-cobordisms.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:59:03 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Galatius","Soren",""],["Randal-Williams","Oscar",""]]} +{"id":"2308.15608","submitter":"Rainer J. Fries","authors":"Rainer J. Fries, Jacob Purcell, Michael Kordell II, Che-Ming Ko","title":"Excited Hadron Channels in Hadronization","comments":"6 pages, 3 figures; submitted to Proceedings of Science","journal-ref":null,"doi":null,"report-no":null,"categories":"nucl-th nucl-ex","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The proper treatment of hadronic resonances plays an important role in many\naspects of heavy ion collisions. This is expected to be the case also for\nhadronization, due to the large degeneracies of excited states, and the\nabundant production of hadrons from their decays. We first show how a\ncomprehensive treatment of excited meson states can be incorporated into quark\nrecombination, and in extension, into Hybrid Hadronization. We then discuss the\nquantum mechanics of forming excited states, utilizing the Wigner distribution\nfunctions of angular momentum eigenstates of isotropic 3-D harmonic\noscillators. We further describe how resonance decays can be handled, based on\na set of minimal assumptions, by creating an extension of hadron decays in\nPYTHIA 8. Finally, we present first results by simulating $e^+e^-$ collisions\nusing PYTHIA and Hybrid Hadronization with excited mesons up to orbital angular\nmomentum $L=4$ and radial quantum number 2. We find that states up to $L=2$ are\nproduced profusely by quark recombination.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 19:59:59 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Fries","Rainer J.",""],["Purcell","Jacob",""],["Kordell","Michael","II"],["Ko","Che-Ming",""]]} +{"id":"2308.15609","submitter":"Anthony Sarah","authors":"Sharath Nittur Sridhar, Souvik Kundu, Sairam Sundaresan, Maciej\n Szankin, Anthony Sarah","title":"InstaTune: Instantaneous Neural Architecture Search During Fine-Tuning","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" One-Shot Neural Architecture Search (NAS) algorithms often rely on training a\nhardware agnostic super-network for a domain specific task. Optimal\nsub-networks are then extracted from the trained super-network for different\nhardware platforms. However, training super-networks from scratch can be\nextremely time consuming and compute intensive especially for large models that\nrely on a two-stage training process of pre-training and fine-tuning. State of\nthe art pre-trained models are available for a wide range of tasks, but their\nlarge sizes significantly limits their applicability on various hardware\nplatforms. We propose InstaTune, a method that leverages off-the-shelf\npre-trained weights for large models and generates a super-network during the\nfine-tuning stage. InstaTune has multiple benefits. Firstly, since the process\nhappens during fine-tuning, it minimizes the overall time and compute resources\nrequired for NAS. Secondly, the sub-networks extracted are optimized for the\ntarget task, unlike prior work that optimizes on the pre-training objective.\nFinally, InstaTune is easy to \"plug and play\" in existing frameworks. By using\nmulti-objective evolutionary search algorithms along with lightly trained\npredictors, we find Pareto-optimal sub-networks that outperform their\nrespective baselines across different performance objectives such as accuracy\nand MACs. Specifically, we demonstrate that our approach performs well across\nboth unimodal (ViT and BERT) and multi-modal (BEiT-3) transformer based\narchitectures.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:02:24 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Sridhar","Sharath Nittur",""],["Kundu","Souvik",""],["Sundaresan","Sairam",""],["Szankin","Maciej",""],["Sarah","Anthony",""]]} +{"id":"2308.15610","submitter":"Maria Barba","authors":"Maria Barba (1), Benjamin Hansen (1), Michael White (1), Gregory\n Johnson (1), Omar Al Atassi (1), Jun Dong (1), Shreya Ranpariya (1), William\n Soyars (1), Ahmed Faraj (1), Pratik Patel (1), Noelle Besse (2), Annelise\n Machefel (2) and Lois Perrot (2) ((1) Fermi National Accelerator Laboratory,\n (2) Air Liquide Advanced Technologies)","title":"Integration of a new Cryogenic Liquefier into the IB-1 Cryogenic Test\n Facility","comments":"Cryogenic Eng Conf and Intnl Cryo Materials Conf (CEC/ICMC 2023)","journal-ref":null,"doi":null,"report-no":"FERMILAB-CONF-23-374-TD","categories":"physics.acc-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The increase over the last years of the testing activities related to quantum\nsystems, SRF cavities for the PIP-II and the LCLS-II projects, as well as\nsuperconducting magnets for the HL-LHC project and Fusion research activities,\nhas required the addition of a new Helium cryogenic plant into the existing\nIB-1 Industrial Cryogenic Test Facility. The new cryogenic plant is composed of\na cryogenic liquefier (Cold Box) able to provide up to 340 L/h, a 4 kL Dewar\nand two Mycom compressors providing up to 120 g/s. AL-AT (Air Liquide Advanced\nTechnologies) has taken part of this project by designing and manufacturing the\ncryogenic liquefier. This new cryogenic plant is connected through a cryogenic\ndistribution system to a 10 kL Dewar, which is part of the existing cryogenic\ntest facility, itself composed of another Cold Box and a Sullair compressor.\nThe new cryogenic plant has two main operating modes: one allows to transfer\nliquid helium at 1.7 bar between the two Dewars, the other allows to transfer\nsupercritical Helium at 2 bar or more between the new Cold Box and the 10 kL\nDewar. The entire industrial cryogenic facility is handled by a common\nInventory Control System, composed of three control valves, and 9 tanks giving\na total buffer volume of more than 1000 m3. This paper presents the technical\nfeatures of the new Helium cryogenic plant, as well as the main results of the\nliquefier commissioning phase and details of the helium transfer between the\ntwo Dewars, making the connection between the cryogenic plants at the IB-1\nIndustrial Cryogenic Test Facility.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:06:52 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Barba","Maria",""],["Hansen","Benjamin",""],["White","Michael",""],["Johnson","Gregory",""],["Atassi","Omar Al",""],["Dong","Jun",""],["Ranpariya","Shreya",""],["Soyars","William",""],["Faraj","Ahmed",""],["Patel","Pratik",""],["Besse","Noelle",""],["Machefel","Annelise",""],["Perrot","Lois",""]]} +{"id":"2308.15611","submitter":"Sarah Plosker","authors":"Nathaniel Johnston and Sarah Plosker","title":"Laplacian $\\{-1,0,1\\}$- and $\\{-1,1\\}$-diagonalizable graphs","comments":"24 pages, 3 tables","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" A graph is called \"Laplacian integral\" if the eigenvalues of its Laplacian\nmatrix are all integers. We investigate the subset of these graphs whose\nLaplacian is furthermore diagonalized by a matrix with entries coming from a\nfixed set, with particular emphasis on the sets $\\{-1,0,1\\}$ or $\\{-1,1\\}$.\nSuch graphs include as special cases the recently-investigated families of\n\"Hadamard-diagonalizable\" and \"weakly Hadamard-diagonalizable\" graphs. As a\ncombinatorial tool to aid in our investigation, we introduce a family of\nvectors that we call \"balanced\", which generalize totally balanced partitions,\nregular sequences, and complete partitions. We show that balanced vectors\ncompletely characterize which graph complements and complete multipartite\ngraphs are $\\{-1,0,1\\}$-diagonalizable, and we furthermore prove results on\ndiagonalizability of the Cartesian product, disjoint union, and join of graphs.\nParticular attention is paid to the $\\{-1,0,1\\}$- and\n$\\{-1,1\\}$-diagonalizability of the complete graphs and complete multipartite\ngraphs. Finally, we provide a complete list of all simple, connected graphs on\nnine or fewer vertices that are $\\{-1,0,1\\}$- or $\\{-1,1\\}$-diagonalizable.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:10:25 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Johnston","Nathaniel",""],["Plosker","Sarah",""]]} +{"id":"2308.15612","submitter":"Andrea Celentano","authors":"Yu. M. Andreev, A. Antonov, D. Banerjee, B. Banto Oberhauser, J.\n Bernhard, P. Bisio, M. Bondi, A. Celentano, N. Charitonidis, D. Cooke, P.\n Crivelli, E. Depero, A. V. Dermenev, S. V. Donskov, R. R. Dusaev, T. Enik, V.\n N. Frolov, A. Gardikiotis, S. G. Gerassimov, S. N. Gninenko, M. Hosgen, M.\n Jeckel, V. A. Kachanov, Y. Kambar, A. E. Karneyeu, G. Kekelidze, B. Ketzer,\n D. V. Kirpichnikov, M. M. Kirsanov, V. N. Kolosov, I. V. Konorov, S. V.\n Gertsenberger, E. A. Kasianova, V. A. Kramarenko, L. V. Kravchuk, N. V.\n Krasnikov, S. V. Kuleshov, V. E. Lyubovitskij, V. Lysan, A. Marini, L.\n Marsican, V. A. Matveev, R. M. Fredes, R. M. Yanssen, Yu. V. Mikhailov, L.\n Molina Bueno, M. Mongillo, D. V. Peshekhonov, V. A. Polyakov, B. Radics, K.\n Salamatin, V. D. Samoylenko, H. Sieber, D. Shchukin, O. Soto, V. O.\n Tikhomirov, I. Tlisova, A. N. Toropin, A. Yu. Trifonov, M. Tuzi, P. Ulloa, P.\n V. Volkov, V. Yu. Volkov, I. V. Voronchikhin, J. Zamora-Saa, A. S. Zhevlakov","title":"Probing Light Dark Matter with positron beams at NA64","comments":"Version submitted to PRL","journal-ref":null,"doi":null,"report-no":"CERN-EP-2023-192","categories":"hep-ex","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We present the results of a missing-energy search for Light Dark Matter which\nhas a new interaction with ordinary matter transmitted by a vector boson,\ncalled dark photon $A^\\prime$. For the first time, this search is performed\nwith a positron beam by using the significantly enhanced production of\n$A^\\prime$ in the resonant annihilation of positrons with atomic electrons of\nthe target nuclei, followed by the invisible decay of $A^\\prime$ into dark\nmatter. No events were found in the signal region with $(10.1 \\pm\n0.1)~\\times~10^{9}$ positrons on target with 100 GeV energy. This allowed us to\nset new exclusion limits that, relative to the collected statistics, prove the\npower of this experimental technique. This measurement is a crucial first step\ntoward a future exploration program with positron beams, whose estimated\nsensitivity is here presented.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:12:17 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Andreev","Yu. M.",""],["Antonov","A.",""],["Banerjee","D.",""],["Oberhauser","B. Banto",""],["Bernhard","J.",""],["Bisio","P.",""],["Bondi","M.",""],["Celentano","A.",""],["Charitonidis","N.",""],["Cooke","D.",""],["Crivelli","P.",""],["Depero","E.",""],["Dermenev","A. V.",""],["Donskov","S. V.",""],["Dusaev","R. R.",""],["Enik","T.",""],["Frolov","V. N.",""],["Gardikiotis","A.",""],["Gerassimov","S. G.",""],["Gninenko","S. N.",""],["Hosgen","M.",""],["Jeckel","M.",""],["Kachanov","V. A.",""],["Kambar","Y.",""],["Karneyeu","A. E.",""],["Kekelidze","G.",""],["Ketzer","B.",""],["Kirpichnikov","D. V.",""],["Kirsanov","M. M.",""],["Kolosov","V. N.",""],["Konorov","I. V.",""],["Gertsenberger","S. V.",""],["Kasianova","E. A.",""],["Kramarenko","V. A.",""],["Kravchuk","L. V.",""],["Krasnikov","N. V.",""],["Kuleshov","S. V.",""],["Lyubovitskij","V. E.",""],["Lysan","V.",""],["Marini","A.",""],["Marsican","L.",""],["Matveev","V. A.",""],["Fredes","R. M.",""],["Yanssen","R. M.",""],["Mikhailov","Yu. V.",""],["Bueno","L. Molina",""],["Mongillo","M.",""],["Peshekhonov","D. V.",""],["Polyakov","V. A.",""],["Radics","B.",""],["Salamatin","K.",""],["Samoylenko","V. D.",""],["Sieber","H.",""],["Shchukin","D.",""],["Soto","O.",""],["Tikhomirov","V. O.",""],["Tlisova","I.",""],["Toropin","A. N.",""],["Trifonov","A. Yu.",""],["Tuzi","M.",""],["Ulloa","P.",""],["Volkov","P. V.",""],["Volkov","V. Yu.",""],["Voronchikhin","I. V.",""],["Zamora-Saa","J.",""],["Zhevlakov","A. S.",""]]} +{"id":"2308.15613","submitter":"Gian Carlo Diluvi","authors":"Gian Carlo Diluvi, Benjamin Bloem-Reddy, Trevor Campbell","title":"Mixed Variational Flows for Discrete Variables","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"stat.CO cs.LG stat.ML","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Variational flows allow practitioners to learn complex continuous\ndistributions, but approximating discrete distributions remains a challenge.\nCurrent methodologies typically embed the discrete target in a continuous space\n- usually via continuous relaxation or dequantization - and then apply a\ncontinuous flow. These approaches involve a surrogate target that may not\ncapture the original discrete target, might have biased or unstable gradients,\nand can create a difficult optimization problem. In this work, we develop a\nvariational flow family for discrete distributions without any continuous\nembedding. First, we develop a measure-preserving and discrete (MAD) invertible\nmap that leaves the discrete target invariant, and then create a mixed\nvariational flow (MAD Mix) based on that map. We also develop an extension to\nMAD Mix that handles joint discrete and continuous models. Our experiments\nsuggest that MAD Mix produces more reliable approximations than\ncontinuous-embedding flows while being significantly faster to train.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:13:37 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Diluvi","Gian Carlo",""],["Bloem-Reddy","Benjamin",""],["Campbell","Trevor",""]]} +{"id":"2308.15614","submitter":"Haoran Liu","authors":"Haoran Liu, Bokun Wang, Jianling Wang, Xiangjue Dong, Tianbao Yang,\n James Caverlee","title":"Everything Perturbed All at Once: Enabling Differentiable Graph Attacks","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.CR cs.SI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" As powerful tools for representation learning on graphs, graph neural\nnetworks (GNNs) have played an important role in applications including social\nnetworks, recommendation systems, and online web services. However, GNNs have\nbeen shown to be vulnerable to adversarial attacks, which can significantly\ndegrade their effectiveness. Recent state-of-the-art approaches in adversarial\nattacks rely on gradient-based meta-learning to selectively perturb a single\nedge with the highest attack score until they reach the budget constraint.\nWhile effective in identifying vulnerable links, these methods are plagued by\nhigh computational costs. By leveraging continuous relaxation and\nparameterization of the graph structure, we propose a novel attack method\ncalled Differentiable Graph Attack (DGA) to efficiently generate effective\nattacks and meanwhile eliminate the need for costly retraining. Compared to the\nstate-of-the-art, DGA achieves nearly equivalent attack performance with 6\ntimes less training time and 11 times smaller GPU memory footprint on different\nbenchmark datasets. Additionally, we provide extensive experimental analyses of\nthe transferability of the DGA among different graph models, as well as its\nrobustness against widely-used defense mechanisms.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:14:42 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Liu","Haoran",""],["Wang","Bokun",""],["Wang","Jianling",""],["Dong","Xiangjue",""],["Yang","Tianbao",""],["Caverlee","James",""]]} +{"id":"2308.15615","submitter":"J. Subedi","authors":"J. Subedi (1), B. Hansen (1), M. White (1), V. Patel (1), J. Makara\n (1), O. Atassi (1) and G. Johnson (1) ((1) Fermi National Accelerator\n Laboratory)","title":"Nitrogen Precooling Heat Exchanger replacement and control system\n upgrade in Superfluid Cryoplant at CMTF","comments":"Cryogenic Eng Conf and Intnl Cryo Materials Conf (CEC/ICMC 2023)","journal-ref":null,"doi":null,"report-no":"FERMILAB-CONF-23-379-TD","categories":"physics.ins-det","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Liquid Nitrogen precooling is used in most Cryoplants to achieve cooldown to\n80 K temperature range. In one such system at Fermilab's CMTF Superfluid\nCryoplant, where the Helium supply directly exchanges heat with liquid\nNitrogen, freezing of Nitrogen occurred inside the heat exchanger due to heat\nexchanger imbalance during a Cryoplant trip. Trapped vapor pockets of N2 within\nthe frozen heat exchanger channels were formed while warming up the heat\nexchanger, creating high localized pressure and subsequent damage/rupture of\nthe heat exchanger. Replacement of the heat exchanger was done, and\nmodifications were made in the system to rectify future occurrences. The\ncontrol system was updated to bypass the heat exchanger entirely if the\nincoming Helium stream temperature drops below 76 K. This was done by\nrepurposing two control valves as heat exchanger bypass valves that were\npreviously used for a redundant 80 K adsorber in the coldbox. Additional\nmodifications were made to further prevent return of large amount of cold\nHelium gas from cold end during abrupt Cryoplant shutdown. This modification\nhas ensured high reliability of heat exchanger with prevention of freezing of\nNitrogen which can damage the heat exchanger.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:16:37 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Subedi","J.",""],["Hansen","B.",""],["White","M.",""],["Patel","V.",""],["Makara","J.",""],["Atassi","O.",""],["Johnson","G.",""]]} +{"id":"2308.15616","submitter":"J. Subedi","authors":"J. Subedi (1), T. Tope (1), B. Hansen (1), Y. Jia (1), J. Makara (1),\n J. Tillman (1), Z. Tang (1) ((1) Fermi National Accelerator Laboratory)","title":"Design of Muon Campus full flow purifier for varying operational\n conditions and horizontal shipping","comments":"Cryogenic Eng Conf and Intnl Cryo Materials Conf (CEC/ICMC 2023)","journal-ref":null,"doi":null,"report-no":"FERMILAB-CONF-23-380-PPD-TD","categories":"physics.ins-det","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Constant ingress of impurities in Muon Campus g-2 experiment at Fermilab has\nresulted in reduction of efficiency of cryogenic expanders and occasional\nundesired downtime to flush the impurities. Due to insufficiency of current 60\ng/s mobile purifier, a full flow purifier is designed to be used in Muon Campus\nwhich purifies 240 g/s of Helium throughput of 4 compressors through charcoal\nbed at 80 K and returns ambient Helium back to the system. The purifier is\ndesigned to be operated near liquid Nitrogen temperature during cold operations\nand up to 400 K during regeneration. Both warm and cold operational range of\nthe purifier has required use of appropriate clearances in design due to\nexpansion and contraction. The vessel of around 16 ft height which is designed\nto be operated vertically is to be shipped horizontally. The asymmetrical\nposition of heavy stainless steel heat exchanger in the purifier support frame\nand 5g vertical load design consideration for shipping has required use of\nshipping supports and heat exchanger rotational stops to comply with design\nrequirements. FEA of purifier system is performed in cold, warm and shipping\ncases to verify that the purifier satisfies the design requirements.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:20:19 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Subedi","J.","","Fermi National Accelerator Laboratory"],["Tope","T.","","Fermi National Accelerator Laboratory"],["Hansen","B.","","Fermi National Accelerator Laboratory"],["Jia","Y.","","Fermi National Accelerator Laboratory"],["Makara","J.","","Fermi National Accelerator Laboratory"],["Tillman","J.","","Fermi National Accelerator Laboratory"],["Tang","Z.","","Fermi National Accelerator Laboratory"]]} +{"id":"2308.15617","submitter":"Marcelo Fonseca Faraj","authors":"Marcelo Fonseca Faraj","title":"Streaming, Local, and Multi-Level (Hyper)Graph Decomposition","comments":"Doctoral thesis","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DS","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" (Hyper)Graph decomposition is a family of problems that aim to break down\nlarge (hyper)graphs into smaller sub(hyper)graphs for easier analysis. The\nimportance of this lies in its ability to enable efficient computation on large\nand complex (hyper)graphs, such as social networks, chemical compounds, and\ncomputer networks. This dissertation explores several types of (hyper)graph\ndecomposition problems, including graph partitioning, hypergraph partitioning,\nlocal graph clustering, process mapping, and signed graph clustering. Our main\nfocus is on streaming algorithms, local algorithms and multilevel algorithms.\nIn terms of streaming algorithms, we make contributions with highly efficient\nand effective algorithms for (hyper)graph partitioning and process mapping. In\nterms of local algorithms, we propose sub-linear algorithms which are effective\nin detecting high-quality local communities around a given seed node in a graph\nbased on the distribution of a given motif. In terms of multilevel algorithms,\nwe engineer high-quality multilevel algorithms for process mapping and signed\ngraph clustering. We provide a thorough discussion of each algorithm along with\nexperimental results demonstrating their superiority over existing\nstate-of-the-art techniques. The results show that the proposed algorithms\nachieve improved performance and better solutions in various metrics, making\nthem highly promising for practical applications. Overall, this dissertation\nshowcases the effectiveness of advanced combinatorial algorithmic techniques in\nsolving challenging (hyper)graph decomposition problems.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:24:49 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Faraj","Marcelo Fonseca",""]]} +{"id":"2308.15618","submitter":"Anirudh Choudhary","authors":"Anirudh Choudhary, Angelina Hwang, Jacob Kechter, Krishnakant Saboo,\n Blake Bordeaux, Puneet Bhullar, Nneka Comfere, David DiCaudo, Steven Nelson,\n Emma Johnson, Leah Swanson, Dennis Murphree, Aaron Mangold, Ravishankar K.\n Iyer","title":"RACR-MIL: Weakly Supervised Skin Cancer Grading using Rank-Aware\n Contextual Reasoning on Whole Slide Images","comments":"7 pages main text, 2 page references, 3 page appendix; submitted to\n AAAI","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV cs.LG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Cutaneous squamous cell cancer (cSCC) is the second most common skin cancer\nin the US. It is diagnosed by manual multi-class tumor grading using a tissue\nwhole slide image (WSI), which is subjective and suffers from inter-pathologist\nvariability. We propose an automated weakly-supervised grading approach for\ncSCC WSIs that is trained using WSI-level grade and does not require\nfine-grained tumor annotations. The proposed model, RACR-MIL, transforms each\nWSI into a bag of tiled patches and leverages attention-based multiple-instance\nlearning to assign a WSI-level grade. We propose three key innovations to\naddress general as well as cSCC-specific challenges in tumor grading. First, we\nleverage spatial and semantic proximity to define a WSI graph that encodes both\nlocal and non-local dependencies between tumor regions and leverage graph\nattention convolution to derive contextual patch features. Second, we introduce\na novel ordinal ranking constraint on the patch attention network to ensure\nthat higher-grade tumor regions are assigned higher attention. Third, we use\ntumor depth as an auxiliary task to improve grade classification in a multitask\nlearning framework. RACR-MIL achieves 2-9% improvement in grade classification\nover existing weakly-supervised approaches on a dataset of 718 cSCC tissue\nimages and localizes the tumor better. The model achieves 5-20% higher accuracy\nin difficult-to-classify high-risk grade classes and is robust to class\nimbalance.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:25:49 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Choudhary","Anirudh",""],["Hwang","Angelina",""],["Kechter","Jacob",""],["Saboo","Krishnakant",""],["Bordeaux","Blake",""],["Bhullar","Puneet",""],["Comfere","Nneka",""],["DiCaudo","David",""],["Nelson","Steven",""],["Johnson","Emma",""],["Swanson","Leah",""],["Murphree","Dennis",""],["Mangold","Aaron",""],["Iyer","Ravishankar K.",""]]} +{"id":"2308.15619","submitter":"Guillaume Thekkadath","authors":"Guillaume Thekkadath and Duncan England and Benjamin Sussman","title":"Intensity correlation holography for remote phase sensing and 3D imaging","comments":"9 pages; 3 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.optics","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Holography is an established technique for measuring the wavefront of optical\nsignals through interferometric combination with a reference wave.\nConventionally the integration time of a hologram is limited by the\ninterferometer coherence time, thus making it challenging to prepare holograms\nof remote objects, especially using weak illumination. Here, we circumvent this\nlimitation by using intensity correlation interferometry. Although the exposure\ntime of individual holograms must be shorter than the interferometer coherence\ntime, we show that any number of randomly phase-shifted holograms can be\ncombined into a single intensity-correlation hologram. In a proof-of-principle\nexperiment, we use this technique to perform phase imaging and 3D\nreconstruction of an object at a ~3m distance using weak illumination and\nwithout active phase stabilization.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:28:44 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Thekkadath","Guillaume",""],["England","Duncan",""],["Sussman","Benjamin",""]]} +{"id":"2308.15620","submitter":"Pakizar Shamoi Dr","authors":"Izbassar Assylzhan, Muragul Muratbekova, Daniyar Amangeldi, Nazzere\n Oryngozha, Anna Ogorodova, Pakizar Shamoi","title":"Intelligent System for Assessing University Student Personality\n Development and Career Readiness","comments":"8 pages. Submitted to Elsevier conference","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" While academic metrics such as transcripts and GPA are commonly used to\nevaluate students' knowledge acquisition, there is a lack of comprehensive\nmetrics to measure their preparedness for the challenges of post-graduation\nlife. This research paper explores the impact of various factors on university\nstudents' readiness for change and transition, with a focus on their\npreparedness for careers. The methodology employed in this study involves\ndesigning a survey based on Paul J. Mayer's \"The Balance Wheel\" to capture\nstudents' sentiments on various life aspects, including satisfaction with the\neducational process and expectations of salary. The collected data from a KBTU\nstudent survey (n=47) were processed through machine learning models: Linear\nRegression, Support Vector Regression (SVR), Random Forest Regression.\nSubsequently, an intelligent system was built using these models and fuzzy\nsets. The system is capable of evaluating graduates' readiness for their future\ncareers and demonstrates a high predictive power. The findings of this research\nhave practical implications for educational institutions. Such an intelligent\nsystem can serve as a valuable tool for universities to assess and enhance\nstudents' preparedness for post-graduation challenges. By recognizing the\nfactors contributing to students' readiness for change, universities can refine\ncurricula and processes to better prepare students for their career journeys.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:32:58 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Assylzhan","Izbassar",""],["Muratbekova","Muragul",""],["Amangeldi","Daniyar",""],["Oryngozha","Nazzere",""],["Ogorodova","Anna",""],["Shamoi","Pakizar",""]]} +{"id":"2308.15621","submitter":"Sander Rhebergen","authors":"Aycil Cesmelioglu, Jeonghun J. Lee, Sander Rhebergen","title":"A hybridizable discontinuous Galerkin method for the coupled\n Navier-Stokes/Biot problem","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.NA cs.NA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper we present a hybridizable discontinuous Galerkin method for the\ntime-dependent Navier-Stokes equations coupled to the quasi-static\nporoelasticity equations via interface conditions. We determine a bound on the\ndata that guarantees stability and well-posedness of the fully discrete problem\nand prove a priori error estimates. A numerical example confirms our analysis.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:34:40 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Cesmelioglu","Aycil",""],["Lee","Jeonghun J.",""],["Rhebergen","Sander",""]]} +{"id":"2308.15622","submitter":"Gu Zhang","authors":"Gu Zhang, Hao-Shu Fang, Hongjie Fang, Cewu Lu","title":"Flexible Handover with Real-Time Robust Dynamic Grasp Trajectory\n Generation","comments":"Paper accepted by IROS2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.RO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In recent years, there has been a significant effort dedicated to developing\nefficient, robust, and general human-to-robot handover systems. However, the\narea of flexible handover in the context of complex and continuous objects'\nmotion remains relatively unexplored. In this work, we propose an approach for\neffective and robust flexible handover, which enables the robot to grasp moving\nobjects with flexible motion trajectories with a high success rate. The key\ninnovation of our approach is the generation of real-time robust grasp\ntrajectories. We also design a future grasp prediction algorithm to enhance the\nsystem's adaptability to dynamic handover scenes. We conduct one-motion\nhandover experiments and motion-continuous handover experiments on our novel\nbenchmark that includes 31 diverse household objects. The system we have\ndeveloped allows users to move and rotate objects in their hands within a\nrelatively large range. The success rate of the robot grasping such moving\nobjects is 78.15% over the entire household object benchmark.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:40:02 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Zhang","Gu",""],["Fang","Hao-Shu",""],["Fang","Hongjie",""],["Lu","Cewu",""]]} +{"id":"2308.15623","submitter":"Richard Cloete","authors":"Abraham Loeb, Toby Adamson, Sophie Bergstrom, Richard Cloete, Shai\n Cohen, Kevin Conrad, Laura Domine, Hairuo Fu, Charles Hoskinson, Eugenia\n Hyung, Stein Jacobsen, Mike Kelly, Jason Kohn, Edwin Lard, Sebastian Lam,\n Frank Laukien, Jim Lem, Rob McCallum, Rob Millsap, Christopher Parendo,\n Michail Pataev, Chaitanya Peddeti, Jeff Pugh, Shmuel Samuha, Dimitar\n Sasselov, Max Schlereth, J.J. Siler, Amir Siraj, Peter Mark Smith, Roald\n Tagle, Jonathan Taylor, Ryan Weed, Art Wright, Jeff Wynn","title":"Discovery of Spherules of Likely Extrasolar Composition in the Pacific\n Ocean Site of the CNEOS 2014-01-08 (IM1) Bolide","comments":"Submitted for publication in a peer-reviewed journal","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.EP astro-ph.GA","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" We have conducted an extensive towed-magnetic-sled survey during the period\n14-28 June, 2023, over the seafloor centered around the calculated path of the\nbolide CNEOS 2014-01-08 (IM1) about 85 km north of Manus Island, Papua New\nGuinea. We found about 700 spherules of diameter 0.05-1.3 millimeters in our\nsamples, of which 57 were analyzed so far. The spherules were significantly\nconcentrated along the expected meteor path. Mass spectrometry of 47 spherules\nnear the high-yield regions along IM1's path reveals a distinct extra-solar\nabundance pattern for 5 of them, while background spherules have abundances\nconsistent with a solar system origin. The unique spherules show an excess of\nBe, La and U, by up to three orders of magnitude relative to the solar system\nstandard of CI chondrites. These \"BeLaU\"-type spherules, never seen before,\nalso have very low refractory siderophile elements such as Re. Volatile\nelements, such as Mn, Zn, Pb, are depleted as expected from evaporation losses\nduring a meteor's airburst. In addition, the mass-dependent variations in\n$^{57}$Fe/$^{54}$Fe and $^{56}$Fe/$^{54}$Fe are also consistent with\nevaporative loss of the light isotopes during the spherules' travel in the\natmosphere. The \"BeLaU\" abundance pattern is not found in control regions\noutside of IM1's path and does not match commonly manufactured alloys or\nnatural meteorites in the solar system. This evidence points towards an\nassociation of \"BeLaU\"-type spherules with IM1, supporting its interstellar\norigin independently of the high velocity and unusual material strength implied\nfrom the CNEOS data. We suggest that the \"BeLaU\" abundance pattern could have\noriginated from a highly differentiated magma ocean of a planet with an iron\ncore outside the solar system or from more exotic sources.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:40:57 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Loeb","Abraham",""],["Adamson","Toby",""],["Bergstrom","Sophie",""],["Cloete","Richard",""],["Cohen","Shai",""],["Conrad","Kevin",""],["Domine","Laura",""],["Fu","Hairuo",""],["Hoskinson","Charles",""],["Hyung","Eugenia",""],["Jacobsen","Stein",""],["Kelly","Mike",""],["Kohn","Jason",""],["Lard","Edwin",""],["Lam","Sebastian",""],["Laukien","Frank",""],["Lem","Jim",""],["McCallum","Rob",""],["Millsap","Rob",""],["Parendo","Christopher",""],["Pataev","Michail",""],["Peddeti","Chaitanya",""],["Pugh","Jeff",""],["Samuha","Shmuel",""],["Sasselov","Dimitar",""],["Schlereth","Max",""],["Siler","J. J.",""],["Siraj","Amir",""],["Smith","Peter Mark",""],["Tagle","Roald",""],["Taylor","Jonathan",""],["Weed","Ryan",""],["Wright","Art",""],["Wynn","Jeff",""]]} +{"id":"2308.15624","submitter":"Muath Alsuhaibani","authors":"Muath Alsuhaibani, Hiroko H. Dodge, Mohammad H. Mahoor","title":"Detection of Mild Cognitive Impairment Using Facial Features in Video\n Conversations","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Early detection of Mild Cognitive Impairment (MCI) leads to early\ninterventions to slow the progression from MCI into dementia. Deep Learning\n(DL) algorithms could help achieve early non-invasive, low-cost detection of\nMCI. This paper presents the detection of MCI in older adults using DL models\nbased only on facial features extracted from video-recorded conversations at\nhome. We used the data collected from the I-CONECT behavioral intervention\nstudy (NCT02871921), where several sessions of semi-structured interviews\nbetween socially isolated older individuals and interviewers were video\nrecorded. We develop a framework that extracts spatial holistic facial features\nusing a convolutional autoencoder and temporal information using transformers.\nOur proposed DL model was able to detect the I-CONECT study participants'\ncognitive conditions (MCI vs. those with normal cognition (NC)) using facial\nfeatures. The segments and sequence information of the facial features improved\nthe prediction performance compared with the non-temporal features. The\ndetection accuracy using this combined method reached 88% whereas 84% is the\naccuracy without applying the segments and sequences information of the facial\nfeatures within a video on a certain theme.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:45:41 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Alsuhaibani","Muath",""],["Dodge","Hiroko H.",""],["Mahoor","Mohammad H.",""]]} +{"id":"2308.15625","submitter":"G\\'abor Cz\\'edli","authors":"G\\'abor Cz\\'edli","title":"Sperner theorems for unrelated copies of some partially ordered sets in\n a powerset lattice and minimum generating sets of powers of distributive\n lattices","comments":"20 pages, 1 figure","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" For a finite poset (partially ordered set) $U$ and a natural number $n$, let\nSp$(U,n)$ denote the largest number of pairwise unrelated copies of $U$ in the\npowerset lattice (AKA subset lattice) of an $n$-element set. If $U$ is the\nsingleton poset, then Sp$(U,n)$ was determined by E. Sperner in 1928; this\nresult is well known in extremal combinatorics as well as Griggs, Stahl, and\nTrotter's 1984 result for $U$ being a finite chain. We determine Sp$(U,n)$ for\nall finite posets with 0 and 1, and we give estimates for some other posets.\n For a lattice $L$, let Gmin($L$) denote the minimum size of generating sets\nof $L$. We prove that if $U$ is the poset of the join-irreducible elements of a\nfinite distributive lattice $D$, then the function $k\\mapsto$ Gmin($D^k)$ is\nthe left adjoint of the function $n\\mapsto$ Sp$(U,n)$ . This allows us to\ndetermine Gmin($D^k)$ in many cases. E.g., for a 5-element distributive lattice\n$D$, Gmin($D^{2023})=17$ if $D$ is a chain and Gmin($D^{2023})=15$ otherwise.\n It follows that large direct powers of small distributive lattices are\nappropriate for our 2021 cryptographic authentication protocol.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:46:58 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Cz\u00e9dli","G\u00e1bor",""]]} +{"id":"2308.15626","submitter":"Leonid Pekker","authors":"Leonid Pekker","title":"Analytical One-Dimensional Model of Drop Ejection from a Micro-Size\n Nozzle","comments":"17 pages, 9 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.flu-dyn","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this article, we construct a novel one-dimensional model of drop ejection\nfrom a micro-size nozzle due to a short pressure pulse applied to the liquid in\nthe nozzle. The pressure pulse supplies the kinetic energy to the perturbed\nliquid-bulge squeezed from the nozzle, which then ballistically lengthens\nforming a ligament. The Plateau-Rayleigh instability forms a neck in the\nligament at the nozzle, leading to detachment of the ligament from the nozzle,\nwhich then collapses in a drop. This drop formation sequence is typical for\ndrop-on-demand printheads in which the drop is ejected from the nozzle by a\nshort pressure pulse at the needed moment of time when it should reach the\nsubstrate. The model calculates the velocity of the droplet, length of the\nligament vs. time, and the time when the ligament detaches from the nozzle as a\nfunction of the exit radius of the nozzle, the volume of the droplet, the time\nthat the volume of the droplet is squeezed from the nozzle, viscosity, surface\ntension, and mass density of the liquid drop. The model also calculates a\ncriterion for drop ejection from the nozzle.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:50:20 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Pekker","Leonid",""]]} +{"id":"2308.15627","submitter":"Ruoxuan Xiong","authors":"Junting Duan, Markus Pelger, Ruoxuan Xiong","title":"Target PCA: Transfer Learning Large Dimensional Panel Data","comments":"Journal of Econometrics, accepted. The Internet Appendix\n (https://papers.ssrn.com/sol3/papers.cfm?abstract_id=4556029) collects the\n detailed proofs for all the theoretical statements in the main text, the data\n description, and additional simulation results","journal-ref":null,"doi":null,"report-no":null,"categories":"econ.EM stat.ME","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This paper develops a novel method to estimate a latent factor model for a\nlarge target panel with missing observations by optimally using the information\nfrom auxiliary panel data sets. We refer to our estimator as target-PCA.\nTransfer learning from auxiliary panel data allows us to deal with a large\nfraction of missing observations and weak signals in the target panel. We show\nthat our estimator is more efficient and can consistently estimate weak\nfactors, which are not identifiable with conventional methods. We provide the\nasymptotic inferential theory for target-PCA under very general assumptions on\nthe approximate factor model and missing patterns. In an empirical study of\nimputing data in a mixed-frequency macroeconomic panel, we demonstrate that\ntarget-PCA significantly outperforms all benchmark methods.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:53:06 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Duan","Junting",""],["Pelger","Markus",""],["Xiong","Ruoxuan",""]]} +{"id":"2308.15628","submitter":"Eliza Gazda","authors":"Eliza Gazda (for the JEM-EUSO collaboration)","title":"The EUSO-SPB2 Cherenkov Telescope -- Flight Performance and Preliminary\n Results","comments":null,"journal-ref":null,"doi":"10.22323/1.444.1029","report-no":null,"categories":"astro-ph.IM astro-ph.HE physics.ins-det","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Astrophysical Very-High-Energy (VHE, >10PeV) neutrinos deliver crucial\ninformation about the sources of Ultra-High-Energy Cosmic Rays (UHECRs), the\ncomposition of UHECRs, and neutrino/particle physics at highest energies.\nUHE-tau neutrinos skimming the Earth's surface produce tau leptons, which can\nemerge from the ground, decay, and start an upward-going extensive air shower\n(EAS) in the Earth's atmosphere. The tau neutrino can be reconstructed by\nimaging the EAS. We developed an atmospheric Cherenkov Telescope flying on the\nExtreme Universe Space Observatory Super Pressure Balloon 2 (EUSO-SPB2) mission\nto test the air-shower imaging concept at highest altitudes. The EUSO-SPB2\nultra-long-duration balloon mission is a precursor of the Probe of Extreme\nMulti-Messenger Astrophysics (POEMMA), a candidate for an astrophysics\nprobe-class mission. The telescope implements Schmidt optics with a 0.785 m^2\nlight collection area and a 512-pixel SiPM camera covering a 12.8{\\deg} by\n6.4{\\deg} (Horizontal by Vertical) field-of-view with 0.4{\\deg} resolution. The\ncamera signals are sampled with 100MSa/s and digitized with 12-bit resolution.\nThe objectives of the EUSO-SPB2 Cherenkov telescope include a search for UHE\nneutrinos below Earth's limb, UHECRs above the limb, the study of the night sky\nbackground, and studying the telescope's performance. In this presentation, I\nwill present an overview of the Cherenkov telescope and discuss the in-flight\nperformance of the telescope.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:55:19 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Gazda","Eliza","","for the JEM-EUSO collaboration"]]} +{"id":"2308.15629","submitter":"Marta Milewska","authors":"Marta Milewska and Remco van der Hofstad and Bert Zwart","title":"Dynamic random intersection graph: Dynamic local convergence and giant\n structure","comments":"51 pages, 1 figure","journal-ref":null,"doi":null,"report-no":null,"categories":"math.PR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Random intersection graphs containing an underlying community structure are a\npopular choice for modelling real-world networks. Given the group memberships,\nthe classical random intersection graph is obtained by connecting individuals\nwhen they share at least one group. We extend this approach and make the\ncommunities dynamic by letting them alternate between an active and inactive\nphase. We analyse the new model, delivering results on degree distribution,\nlocal convergence, giant component, and maximum group size, paying particular\nattention to the dynamic description of these properties. We also describe the\nconnection between our model and the bipartite configuration model, which is of\nindependent interest.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:55:48 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Milewska","Marta",""],["van der Hofstad","Remco",""],["Zwart","Bert",""]]} +{"id":"2308.15630","submitter":"Luis Flores","authors":"F. J. Escrihuela, L. J. Flores, O. G. Miranda, Javier Rend\\'on, R.\n S\\'anchez-V\\'elez","title":"Examining the sensitivity of FASER to Generalized Neutrino Interactions","comments":"26 pages, 15 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We investigate the sensitivity of the FASER$\\nu$ detector, a novel\nexperimental setup at the LHC, to probe and constrain generalized neutrino\ninteractions (GNI). Employing a comprehensive theoretical framework, we model\nthe effects of generalized neutrino interactions on neutrino-nucleon deep\ninelastic scattering processes within the FASER$\\nu$ detector. By considering\nall the neutrino channels produced at the LHC, we perform a statistical\nanalysis to determine the sensitivity of FASER$\\nu$ to constrain these\ninteractions. Our results demonstrate that FASER$\\nu$ can place stringent\nconstraints on the GNI effective couplings. Additionally, we study the relation\nbetween GNI and a minimal Leptoquark model where the SM is augmented by a\nsinglet Leptoquark with hypercharge $1/3$. We have found that the sensitivities\nfor various combinations of the Leptoquark Yukawa couplings are approximately\n$\\mathcal{O}(1)$, particularly when considering a Leptoquark mass in the TeV\nrange.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:56:01 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Escrihuela","F. J.",""],["Flores","L. J.",""],["Miranda","O. G.",""],["Rend\u00f3n","Javier",""],["S\u00e1nchez-V\u00e9lez","R.",""]]} +{"id":"2308.15631","submitter":"Gregor Taylor","authors":"Gregor G. Taylor, Alexander B. Walter, Boris Korzh, Bruce Bumble,\n Sahil R. Patel, Jason P. Allmaras, Andrew D. Beyer, Roger O'Brient, Matthew\n D. Shaw and Emma E. Wollman","title":"Low-noise single-photon counting superconducting nanowire detectors at\n infrared wavelengths up to 29 $\\mu$m","comments":"15 pages, 5 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph cond-mat.supr-con physics.ins-det","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We report on the extension of the spectral sensitivity of superconducting\nnanowire single-photon detectors to a wavelength of 29 $\\mu$m. This represents\nthe first demonstration of a time correlated single-photon counting detector at\nthese long infrared wavelengths. We achieve saturated internal detection\nefficiency from 10 to 29 $\\mu$m, whilst maintaining dark count rates below 0.1\ncounts per second. Extension of superconducting nanowire single-photon\ndetectors to this spectral range provides low noise and high timing resolution\nphoton counting detection, effectively providing a new class of single-photon\nsensitive detector for these wavelengths. These detectors are important for\napplications such as exoplanet spectroscopy, infrared astrophysics, physical\nchemistry, remote sensing and direct dark-matter detection.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:56:04 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Taylor","Gregor G.",""],["Walter","Alexander B.",""],["Korzh","Boris",""],["Bumble","Bruce",""],["Patel","Sahil R.",""],["Allmaras","Jason P.",""],["Beyer","Andrew D.",""],["O'Brient","Roger",""],["Shaw","Matthew D.",""],["Wollman","Emma E.",""]]} +{"id":"2308.15632","submitter":"David Leisawitz","authors":"David Leisawitz, Matteo Bonato, Duncan Farrah, T. Tupper Hyde,\n Al\\'aine Lee, Joshua Bennett Lovell, Brenda Matthews, Lee G. Mundy, Conor\n Nixon, Petr Pokorny, Berke V. Ricketti, Giorgio Savini, Jeremy Scott, Irene\n Shivaei, Locke Spencer, Kate Su, C. Megan Urry, and David Wilner","title":"The science case for a far-infrared interferometer in the era of JWST\n and ALMA","comments":"11 pages, 12 figures. To be published in Proc. SPIE Conf. 12686\n \"Instruments: Scientific Returns and Conceptual Designs\"","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.IM","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" A space-based far-infrared interferometer could work synergistically with the\nJames Webb Space Telescope (JWST) and the Atacama Large Millimeter Array (ALMA)\nto revolutionize our understanding of the astrophysical processes leading to\nthe formation of habitable planets and the co-evolution of galaxies and their\ncentral supermassive black holes. Key to these advances are measurements of\nwater in its frozen and gaseous states, observations of astronomical objects in\nthe spectral range where most of their light is emitted, and access to critical\ndiagnostic spectral lines, all of which point to the need for a far-infrared\nobservatory in space. The objects of interest - circumstellar disks and distant\ngalaxies - typically appear in the sky at sub-arcsecond scales, which rendered\nall but a few of them unresolvable with the successful and now-defunct 3.5-m\nHerschel Space Observatory, the largest far-infrared telescope flown to date. A\nfar-infrared interferometer with maximum baseline length in the tens of meters\nwould match the angular resolution of JWST at 10x longer wavelengths and\nobserve water ice and water-vapor emission, which ALMA can barely do through\nthe Earth's atmosphere. Such a facility was conceived and studied two decades\nago. Here we revisit the science case for a space-based far-infrared\ninterferometer in the era of JWST and ALMA and summarize the measurement\ncapabilities that will enable the interferometer to achieve a set of compelling\nscientific objectives. Common to all the science themes we consider is a need\nfor sub-arcsecond image resolution.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:56:24 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Leisawitz","David",""],["Bonato","Matteo",""],["Farrah","Duncan",""],["Hyde","T. Tupper",""],["Lee","Al\u00e1ine",""],["Lovell","Joshua Bennett",""],["Matthews","Brenda",""],["Mundy","Lee G.",""],["Nixon","Conor",""],["Pokorny","Petr",""],["Ricketti","Berke V.",""],["Savini","Giorgio",""],["Scott","Jeremy",""],["Shivaei","Irene",""],["Spencer","Locke",""],["Su","Kate",""],["Urry","C. Megan",""],["Wilner","David",""]]} +{"id":"2308.15633","submitter":"Pedram Rabiee","authors":"Pedram Rabiee, S. Alireza Seyyed Mousavi, Amelia J. S. Sheffler, Erik\n Hellstr\\\"om, Mrdjan Jankovic, Mario A. Santillo, T. M. Seigler, Jesse B.\n Hoagg","title":"The Impact of Reference-Command Preview on Human-in-the-Loop Control\n Behavior","comments":"Preprint submitted to IEEE Transactions on Cybernetics","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SY cs.SY","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This article presents results from an experiment in which 44 human subjects\ninteract with a dynamic system to perform 40 trials of a command-following\ntask. The reference command is unpredictable and different on each trial, but\nall subjects have the same sequence of reference commands for the 40 trials.\nThe subjects are divided into 4 groups of 11 subjects. One group performs the\ncommand-following task without preview of the reference command, and the other\n3 groups are given preview of the reference command for different time lengths\ninto the future (0.5 s, 1 s, 1.5 s). A subsystem identification algorithm is\nused to obtain best-fit models of each subject's control behavior on each\ntrial. The time- and frequency-domain performance, as well as the identified\nmodels of the control behavior for the 4 groups are examined to investigate the\neffects of reference-command preview. The results suggest that preview tends to\nimprove performance by allowing the subjects to compensate for sensory time\ndelay and approximate the inverse dynamics in feedforward. However, too much\npreview may decrease performance by degrading the ability to use the correct\nphase lead in feedforward.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 20:56:27 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Rabiee","Pedram",""],["Mousavi","S. Alireza Seyyed",""],["Sheffler","Amelia J. S.",""],["Hellstr\u00f6m","Erik",""],["Jankovic","Mrdjan",""],["Santillo","Mario A.",""],["Seigler","T. M.",""],["Hoagg","Jesse B.",""]]} +{"id":"2308.15634","submitter":"Jiangming Yao","authors":"A. Belley, J. M. Yao, B. Bally, J. Pitcher, J. Engel, H. Hergert, J.\n D. Holt, T. Miyagi, T. R. Rodriguez, A. M. Romero, S. R. Stroberg, and X.\n Zhang","title":"Ab initio uncertainty quantification of neutrinoless double-beta decay\n in $^{76}$Ge","comments":"include 6+11 pages, 1+3 tables, and 2+10 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"nucl-th hep-ex hep-ph nucl-ex","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The observation of neutrinoless double-beta ($0\\nu\\beta\\beta$) decay would\noffer proof of lepton number violation, demonstrating that neutrinos are\nMajorana particles, while also helping us understand why there is more matter\nthan antimatter in the Universe. If the decay is driven by the exchange of the\nthree known light neutrinos, a discovery would, in addition, link the observed\ndecay rate to the neutrino mass scale through a theoretical quantity known as\nthe nuclear matrix element (NME). Accurate values of the NMEs for all nuclei\nconsidered for use in $0\\nu\\beta\\beta$ experiments are therefore crucial for\ndesigning and interpreting those experiments. Here, we report the first\ncomprehensive ab initio uncertainty quantification of the\n$0\\nu\\beta\\beta$-decay NME, in the key nucleus $^{76}$Ge. Our method employs\nnuclear strong and weak interactions derived within chiral effective field\ntheory and recently developed many-body emulators. Our result, with a\nconservative treatment of uncertainty, is an NME of $3.44^{+1.33}_{-1.56}$,\nwhich, together with the best-existing half-life sensitivity, sets an upper\nlimit for effective neutrino mass of $141^{+117}_{-39}$ meV. The result is\nimportant for designing next-generation germanium detectors aiming to cover the\nentire inverted hierarchy region of neutrino masses. When extended to other\nisotopes, our approach will allow a careful comparison of experiments.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 21:01:07 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Belley","A.",""],["Yao","J. M.",""],["Bally","B.",""],["Pitcher","J.",""],["Engel","J.",""],["Hergert","H.",""],["Holt","J. D.",""],["Miyagi","T.",""],["Rodriguez","T. R.",""],["Romero","A. M.",""],["Stroberg","S. R.",""],["Zhang","X.",""]]} +{"id":"2308.15635","submitter":"Marie Diana Sieper","authors":"Walter Didimo, Fedor V. Fomin, Petr A. Golovach, Tanmay Inamdar,\n Stephen Kobourov, Marie Diana Sieper","title":"Parameterized and Approximation Algorithms for the Maximum Bimodal\n Subgraph Problem","comments":"Appears in the Proceedings of the 31st International Symposium on\n Graph Drawing and Network Visualization (GD 2023)","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DS","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" A vertex of a plane digraph is bimodal if all its incoming edges (and hence\nall its outgoing edges) are consecutive in the cyclic order around it. A plane\ndigraph is bimodal if all its vertices are bimodal. Bimodality is at the heart\nof many types of graph layouts, such as upward drawings, level-planar drawings,\nand L-drawings. If the graph is not bimodal, the Maximum Bimodal Subgraph (MBS)\nproblem asks for an embedding-preserving bimodal subgraph with the maximum\nnumber of edges. We initiate the study of the MBS problem from the\nparameterized complexity perspective with two main results: (i) we describe an\nFPT algorithm parameterized by the branchwidth (and hence by the treewidth) of\nthe graph; (ii) we establish that MBS parameterized by the number of\nnon-bimodal vertices admits a polynomial kernel. As the byproduct of these\nresults, we obtain a subexponential FPT algorithm and an efficient\npolynomial-time approximation scheme for MBS.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 21:01:31 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Didimo","Walter",""],["Fomin","Fedor V.",""],["Golovach","Petr A.",""],["Inamdar","Tanmay",""],["Kobourov","Stephen",""],["Sieper","Marie Diana",""]]} +{"id":"2308.15636","submitter":"Shunqiao Sun","authors":"Shunqiao Sun, Yunqiao Hu, Kumar Vijay Mishra, and Athina P. Petropulu","title":"Widely Separated MIMO Radar Using Matrix Completion","comments":"13 pages, submitted to IEEE Transactions on Radar Systems","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We present a low-complexity widely separated multiple-input-multiple-output\n(WS-MIMO) radar that samples the signals at each of its multiple receivers at\nreduced rates. We process the low-rate samples of all transmit-receive chains\nat each receiver as data matrices. We demonstrate that each of these matrices\nis low rank as long as the target moves slowly within a coherent processing\ninterval. We leverage matrix completion (MC) to recover the missing samples of\neach receiver signal matrix at the common fusion center. Subsequently, we\nestimate the targets' positions and Doppler velocities via the maximum\nlikelihood method. Our MC-WS-MIMO approach recovers missing samples and\nthereafter target parameters at reduced rates without discretization. Our\nanalysis using ambiguity functions shows that antenna geometry affects the\nperformance of MC-WS-MIMO. Numerical experiments demonstrate reasonably\naccurate target localization at SNR of 20 dB and sampling rate reduction to\n20%.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 21:07:46 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Sun","Shunqiao",""],["Hu","Yunqiao",""],["Mishra","Kumar Vijay",""],["Petropulu","Athina P.",""]]} +{"id":"2308.15637","submitter":"Akash Dhruv","authors":"Akash Dhruv, Anshu Dubey","title":"Designing Laboratory Notebooks for Managing Software-based Scientific\n Studies","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SE cs.CE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Scientific processes rely on software as an important tool for data\nacquisition, analysis, and discovery. Over the years sustainable software\ndevelopment practices have made progress in being considered as an integral\ncomponent of research. However, management of computation-based scientific\nstudies is often left to individual researchers who design their computational\nexperiments based on personal preferences and the nature of the study. We\nbelieve that the quality, efficiency, and reproducibility of computation-based\nscientific research can be improved by explicitly creating an execution\nenvironment that allows researchers to provide a clear record of traceability.\nThis is particularly relevant to complex computational studies in\nhigh-performance computing (HPC) environments. In this article, we review the\ndocumentation required to maintain a comprehensive record of HPC computational\nexperiments for reproducibility. We also provide an overview of tools and\npractices that we have developed to perform such studies around Flash-X, a\nmulti-physics scientific software\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 21:13:18 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Dhruv","Akash",""],["Dubey","Anshu",""]]} +{"id":"2308.15638","submitter":"Guoxi Liu","authors":"Guoxi Liu and Federico Iuricich","title":"A Task-Parallel Approach for Localized Topological Data Structures","comments":"11pages, 13 figures, accepted at 2023 IEEE Visualization Conference\n (VIS)","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DS cs.CG cs.GR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Unstructured meshes are characterized by data points irregularly distributed\nin the Euclidian space. Due to the irregular nature of these data, computing\nconnectivity information between the mesh elements requires much more time and\nmemory than on uniformly distributed data. To lower storage costs, dynamic data\nstructures have been proposed. These data structures compute connectivity\ninformation on the fly and discard them when no longer needed. However,\non-the-fly computation slows down algorithms and results in a negative impact\non the time performance. To address this issue, we propose a new task-parallel\napproach to proactively compute mesh connectivity. Unlike previous approaches\nimplementing data-parallel models, where all threads run the same type of\ninstructions, our task-parallel approach allows threads to run different\nfunctions. Specifically, some threads run the algorithm of choice while other\nthreads compute connectivity information before they are actually needed. The\napproach was implemented in the new Accelerated Clustered TOPOlogical (ACTOPO)\ndata structure, which can support any processing algorithm requiring mesh\nconnectivity information. Our experiments show that ACTOPO combines the\nbenefits of state-of-the-art memory-efficient (TTK CompactTriangulation) and\ntime-efficient (TTK ExplicitTriangulation) topological data structures. It\noccupies a similar amount of memory as TTK CompactTriangulation while providing\nup to 5x speedup. Moreover, it achieves comparable time performance as TTK\nExplicitTriangulation while using only half of the memory space.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 21:13:43 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Liu","Guoxi",""],["Iuricich","Federico",""]]} +{"id":"2308.15639","submitter":"Andrii Skliar","authors":"Andrii Skliar, Maurice Weiler","title":"Hyperbolic Convolutional Neural Networks","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Deep Learning is mostly responsible for the surge of interest in Artificial\nIntelligence in the last decade. So far, deep learning researchers have been\nparticularly successful in the domain of image processing, where Convolutional\nNeural Networks are used. Although excelling at image classification,\nConvolutional Neural Networks are quite naive in that no inductive bias is set\non the embedding space for images. Similar flaws are also exhibited by another\ntype of Convolutional Networks - Graph Convolutional Neural Networks. However,\nusing non-Euclidean space for embedding data might result in more robust and\nexplainable models. One example of such a non-Euclidean space is hyperbolic\nspace. Hyperbolic spaces are particularly useful due to their ability to fit\nmore data in a low-dimensional space and tree-likeliness properties. These\nattractive properties have been previously used in multiple papers which\nindicated that they are beneficial for building hierarchical embeddings using\nshallow models and, recently, using MLPs and RNNs.\n However, no papers have yet suggested a general approach to using Hyperbolic\nConvolutional Neural Networks for structured data processing, although these\nare the most common examples of data used. Therefore, the goal of this work is\nto devise a general recipe for building Hyperbolic Convolutional Neural\nNetworks. We hypothesize that ability of hyperbolic space to capture hierarchy\nin the data would lead to better performance. This ability should be\nparticularly useful in cases where data has a tree-like structure. Since this\nis the case for many existing datasets \\citep{wordnet, imagenet, fb15k}, we\nargue that such a model would be advantageous both in terms of applications and\nfuture research prospects.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 21:20:16 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Skliar","Andrii",""],["Weiler","Maurice",""]]} +{"id":"2308.15640","submitter":"Hanxun Jin","authors":"Siyuan Song, Hanxun Jin","title":"Identifying Constitutive Parameters for Complex Hyperelastic Solids\n using Physics-Informed Neural Networks","comments":"31 pages, 5 figures, 1 table","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mtrl-sci cs.LG","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Identifying constitutive parameters in engineering and biological materials,\nparticularly those with intricate geometries and mechanical behaviors, remains\na longstanding challenge. The recent advent of Physics-Informed Neural Networks\n(PINNs) offers promising solutions, but current frameworks are often limited to\nbasic constitutive laws and encounter practical constraints when combined with\nexperimental data. In this paper, we introduce a new PINN-based framework\ndesigned to identify material parameters for soft materials, specifically those\nexhibiting complex constitutive behaviors, under large deformation in plane\nstress conditions. Distinctively, our model emphasizes training PINNs with\nmulti-modal time-dependent experimental datasets consisting of full-field\ndeformation and loading history, ensuring algorithm robustness even amidst\nnoisy data. Our results reveal that our framework can accurately identify\nconstitutive parameters of the incompressible Arruda-Boyce model for samples\nwith intricate geometries, maintaining an error below 5%, even with an\nexperimental noise level of 5%. We believe our framework sets the stage for a\ntransformative approach in modulus identification for complex solids,\nespecially for those with geometrical and constitutive intricate.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 21:25:24 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Song","Siyuan",""],["Jin","Hanxun",""]]} +{"id":"2308.15641","submitter":"Arthur Loison","authors":"Arthur Loison, Teddy Pichard, Samuel Kokh and Marc Massot","title":"Two-scale modelling of two-phase flows based on the Stationary Action\n Principle and a Geometric Method Of Moments","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.flu-dyn","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this contribution, we introduce a versatile formalism to derive unified\ntwo-phase models describing both the separated and disperse regimes. It relies\non the stationary action principle and interface geometric variables. The main\nideas are introduced on a simplified case where all the scales and phases have\nthe same velocity and that does not take into account large-scale capillary\nforces. The derivation tools yield a proper mathematical framework through\nhyperbolicity and signed entropy evolution. The formalism encompasses a\nhierarchy of small-scale reduced-order models based on a statistical\ndescription at a mesoscopic kinetic level and is naturally able to include the\ndescription of a disperse phase with polydispersity in size. This hierarchy\nincludes both a cloud of spherical droplets and non-spherical droplets\nexperiencing a dynamical behaviour through incompressible oscillations. The\nassociated small-scale variables are moments of a number density function\nresulting from the Geometric Method Of Moments (GeoMOM). This method selects\nmoments as small-scale geometric variables compatible with the structure and\ndynamics of the interface; they are defined independently of the flow topology\nand, therefore, this model pursues the goal of unifying the modelling of a\nfully-coupled two-scale flow. It is particularly showed that the resulting\ndynamics provides closures for the interface area density equation obtained\nfrom the averaging approach. The extension to mass transfer from one scale to\nthe other including capillary phenomena, as well as the extension to multiple\nvelocities are possible and proposed in complementary works.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 21:26:57 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Loison","Arthur",""],["Pichard","Teddy",""],["Kokh","Samuel",""],["Massot","Marc",""]]} +{"id":"2308.15642","submitter":"Matthew Zurek","authors":"Matthew Zurek and Yudong Chen","title":"Clustering Without an Eigengap","comments":"68 pages, 1 figure","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.DS cs.IT math.IT math.OC stat.ML","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We study graph clustering in the Stochastic Block Model (SBM) in the presence\nof both large clusters and small, unrecoverable clusters. Previous approaches\nachieving exact recovery do not allow any small clusters of size $o(\\sqrt{n})$,\nor require a size gap between the smallest recovered cluster and the largest\nnon-recovered cluster. We provide an algorithm based on semidefinite\nprogramming (SDP) which removes these requirements and provably recovers large\nclusters regardless of the remaining cluster sizes. Mid-sized clusters pose\nunique challenges to the analysis, since their proximity to the recovery\nthreshold makes them highly sensitive to small noise perturbations and\nprecludes a closed-form candidate solution. We develop novel techniques,\nincluding a leave-one-out-style argument which controls the correlation between\nSDP solutions and noise vectors even when the removal of one row of noise can\ndrastically change the SDP solution. We also develop improved eigenvalue\nperturbation bounds of potential independent interest. Using our gap-free\nclustering procedure, we obtain efficient algorithms for the problem of\nclustering with a faulty oracle with superior query complexities, notably\nachieving $o(n^2)$ sample complexity even in the presence of a large number of\nsmall clusters. Our gap-free clustering procedure also leads to improved\nalgorithms for recursive clustering. Our results extend to certain\nheterogeneous probability settings that are challenging for alternative\nalgorithms.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 21:27:21 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Zurek","Matthew",""],["Chen","Yudong",""]]} +{"id":"2308.15643","submitter":"Priyadarshini Bangale","authors":"P. Bangale (for the VERITAS Collaboration) and X. Wang (for the HAWC\n Collaboration)","title":"Searching for TeV emission from LHAASO J0341+5258 with VERITAS and HAWC","comments":"Proceedings for the 38th International Cosmic Ray Conference\n (ICRC2023) in Nagoya Japan, Jul 26 - Aug 3, 2023","journal-ref":null,"doi":"10.22323/1.444.0706","report-no":null,"categories":"astro-ph.HE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Galactic PeVatrons are astrophysical sources accelerating particles up to a\nfew PeV ($\\sim$10$^{15}$ eV) energies. The primary signature of 100 TeV\n$\\gamma$ rays may come from PeV protons or multi-hundred TeV (not PeV)\nelectrons. The search for PeVatrons has been one of the key science topics for\nVERITAS and HAWC. In 2021, LHAASO detected 14 steady $\\gamma$-ray sources with\nphoton energies above 100 TeV, up to 1.4 PeV. This provides a clear list of\nPeVatron candidates for further study with VERITAS and HAWC. Most of these\nsources contain possible source associations, such as supernova remnants,\npulsar wind nebulae, and stellar clusters. However, two sources: LHAASO\nJ2108+5157 and LHAASO J0341+5258, do not have any such counterparts. Therefore,\nmultiwavelength observations are required to identify the objects responsible\nfor the UHE $\\gamma$ rays, to understand the source morphology and association,\nand to shed light on the emission processes. Here, we will present the status\nof VERITAS/HAWC observations and results for the LHAASO PeVatron candidate\nJ0341+5258, and also discuss the VERITAS PeVatron search in general.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 21:29:48 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Bangale","P.","","for the VERITAS Collaboration"],["Wang","X.","","for the HAWC\n Collaboration"]]} +{"id":"2308.15644","submitter":"Andreas Tittl","authors":"Martin Barkey, Rebecca B\\\"uchner, Alwin Wester, Stefanie D. Pritzl,\n Maksim Makarenko, Qizhou Wang, Thomas Weber, Dirk Trauner, Stefan A. Maier,\n Andrea Fratalocchi, Theobald Lohm\\\"uller, Andreas Tittl","title":"Pixelated high-Q metasurfaces for in-situ biospectroscopy and AI-enabled\n classification of lipid membrane photoswitching dynamics","comments":"22 pages, 5 Figures","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.optics cond-mat.mes-hall physics.app-ph","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" Nanophotonic devices excel at confining light into intense hot spots of the\nelectromagnetic near fields, creating unprecedented opportunities for\nlight-matter coupling and surface-enhanced sensing. Recently, all-dielectric\nmetasurfaces with ultrasharp resonances enabled by photonic bound states in the\ncontinuum have unlocked new functionalities for surface-enhanced\nbiospectroscopy by precisely targeting and reading out molecular absorption\nsignatures of diverse molecular systems. However, BIC-driven molecular\nspectroscopy has so far focused on endpoint measurements in dry conditions,\nneglecting the crucial interaction dynamics of biological systems. Here, we\ncombine the advantages of pixelated all-dielectric metasurfaces with deep\nlearning-enabled feature extraction and prediction to realize an integrated\noptofluidic platform for time-resolved in-situ biospectroscopy. Our approach\nharnesses high-Q metasurfaces specifically designed for operation in a lossy\naqueous environment together with advanced spectral sampling techniques to\ntemporally resolve the dynamic behavior of photoswitchable lipid membranes.\nEnabled by a software convolutional neural network, we further demonstrate the\nreal-time classification of the characteristic cis and trans membrane\nconformations with 98% accuracy. Our synergistic sensing platform incorporating\nmetasurfaces, optofluidics, and deep learning opens exciting possibilities for\nstudying multi-molecular biological systems, ranging from the behavior of\ntransmembrane proteins to the dynamic processes associated with cellular\ncommunication.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 21:31:39 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Barkey","Martin",""],["B\u00fcchner","Rebecca",""],["Wester","Alwin",""],["Pritzl","Stefanie D.",""],["Makarenko","Maksim",""],["Wang","Qizhou",""],["Weber","Thomas",""],["Trauner","Dirk",""],["Maier","Stefan A.",""],["Fratalocchi","Andrea",""],["Lohm\u00fcller","Theobald",""],["Tittl","Andreas",""]]} +{"id":"2308.15645","submitter":"Katsumi Okuda","authors":"Katsumi Okuda, Saman Amarasinghe","title":"AskIt: Unified Programming Interface for Programming with Large Language\n Models","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.PL cs.AI cs.SE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In the evolving landscape of software development, Large Language Models\n(LLMs) exhibit a unique phenomenon known as emergent abilities, demonstrating\nadeptness across numerous tasks, from text summarization to code generation.\nWhile these abilities open up novel avenues in software design and crafting,\ntheir incorporation presents substantial challenges. Developers grapple with\ndecisions surrounding the direct embedding of LLMs within applications versus\nemploying them for code generation. Moreover, effective prompt design becomes a\ncritical concern, given the necessity of data extraction from natural language\noutputs. To address these intricacies, this paper introduces AskIt, a\ndomain-specific language (DSL) specifically designed for LLMs. AskIt simplifies\nLLM integration, offering type-guided output control, template-based function\ndefinitions, and a unified interface that diminishes the distinction between\nLLM-based code generation and application integration. Furthermore, through\nProgramming by Example (PBE), AskIt harnesses the power of few-shot learning at\nthe programming language level. Our evaluations underscore AskIt's potency.\nAcross 50 tasks, AskIt generated concise prompts for the given tasks, achieving\na 16.14% reduction in prompt length relative to benchmarks. Additionally, by\nenabling the transition from direct LLM application usage to function\ngeneration, AskIt achieved significant speedups, as observed in our GSM8K\nbenchmark experiments. Through these advancements, AskIt streamlines the\nintegration of LLMs in software development, offering a more efficient,\nversatile approach for leveraging emergent abilities. The implementations of\nAskIt in TypeScript and Python are available at\nhttps://github.com/katsumiok/ts-askit and https://github.com/katsumiok/pyaskit,\nrespectively.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 21:44:27 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Okuda","Katsumi",""],["Amarasinghe","Saman",""]]} +{"id":"2308.15646","submitter":"Lucas Madeira","authors":"L. Madeira, A.D. Garc\\'ia-Orozco, M.A. Moreno-Armijos, A.R. Fritsch,\n V.S. Bagnato","title":"A differential approach to investigate universal scaling in\n far-from-equilibrium quantum systems","comments":"6+2 pages, 3+2 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.quant-gas cond-mat.stat-mech","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Recent progress in out-of-equilibrium closed quantum systems has\nsignificantly advanced the understanding of mechanisms behind their evolution\ntowards thermalization. Notably, the concept of non-thermal fixed points\n(NTFPs) - responsible for the emergence of spatio-temporal universal scaling in\nfar-from-equilibrium systems - has played a crucial role in both theoretical\nand experimental investigations. In this work, we introduce a differential\nequation that has the universal scaling associated with NTFPs as a solution.\nThe advantage of working with a differential equation, rather than only with\nits solution, is that we can extract several insightful properties not\nnecessarily present in the solution alone. Employing two limiting cases of the\nequation, we determined the universal exponents related to the scaling using\nthe distributions near just two momentum values. We established a strong\nagreement with previous investigations by validating this approach with three\ndistinct physical systems. This consistency highlights the universal nature of\nscaling due to NTFPs and emphasizes the predictive capabilities of the proposed\ndifferential equation. Moreover, under specific conditions, the equation\npredicts a power-law related to the ratio of the two universal exponents,\nleading to implications concerning particle and energy transport. This suggests\nthat the observed power-laws in far-from-equilibrium turbulent fluids could be\nrelated to the universal scaling due to NTFPs, potentially offering new\ninsights into the study of turbulence.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 21:48:40 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Madeira","L.",""],["Garc\u00eda-Orozco","A. D.",""],["Moreno-Armijos","M. A.",""],["Fritsch","A. R.",""],["Bagnato","V. S.",""]]} +{"id":"2308.15647","submitter":"Hernan Ceferino Vazquez PhD","authors":"Hernan Ceferino Vazquez","title":"A General Recipe for Automated Machine Learning in Practice","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI cs.SE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Automated Machine Learning (AutoML) is an area of research that focuses on\ndeveloping methods to generate machine learning models automatically. The idea\nof being able to build machine learning models with very little human\nintervention represents a great opportunity for the practice of applied machine\nlearning. However, there is very little information on how to design an AutoML\nsystem in practice. Most of the research focuses on the problems facing\noptimization algorithms and leaves out the details of how that would be done in\npractice. In this paper, we propose a frame of reference for building general\nAutoML systems. Through a narrative review of the main approaches in the area,\nour main idea is to distill the fundamental concepts in order to support them\nin a single design. Finally, we discuss some open problems related to the\napplication of AutoML for future research.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 21:49:28 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Vazquez","Hernan Ceferino",""]]} +{"id":"2308.15648","submitter":"Abhijith Jayakumar","authors":"Abhijith Jayakumar, Stefano Chessa, Carleton Coffrin, Andrey Y.\n Lokhov, Marc Vuffray, Sidhant Misra","title":"Universal framework for simultaneous tomography of quantum states and\n SPAM noise","comments":"27 pages, 2 figures","journal-ref":null,"doi":null,"report-no":"LA-UR-23-29891","categories":"quant-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We present a general denoising algorithm for performing simultaneous\ntomography of quantum states and measurement noise. This algorithm allows us to\nfully characterize state preparation and measurement (SPAM) errors present in\nany quantum system. Our method is based on the analysis of the properties of\nthe linear operator space induced by unitary operations. Given any quantum\nsystem with a noisy measurement apparatus, our method can output the quantum\nstate and the noise matrix of the detector up to a single gauge degree of\nfreedom. We show that this gauge freedom is unavoidable in the general case,\nbut this degeneracy can be generally broken using prior knowledge on the state\nor noise properties, thus fixing the gauge for several types of state-noise\ncombinations with no assumptions about noise strength. Such combinations\ninclude pure quantum states with arbitrarily correlated errors, and arbitrary\nstates with block independent errors. This framework can further use available\nprior information about the setting to systematically reduce the number of\nobservations and measurements required for state and noise detection. Our\nmethod effectively generalizes existing approaches to the problem, and includes\nas special cases common settings considered in the literature requiring an\nuncorrelated or invertible noise matrix, or specific probe states.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 21:49:28 GMT"},{"version":"v2","created":"Thu, 31 Aug 2023 02:36:19 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Jayakumar","Abhijith",""],["Chessa","Stefano",""],["Coffrin","Carleton",""],["Lokhov","Andrey Y.",""],["Vuffray","Marc",""],["Misra","Sidhant",""]]} +{"id":"2308.15649","submitter":"Luan Hoang","authors":"Ciprian Foias, Luan Hoang and Michael S. Jolly","title":"On Galerkin approximations of the Navier-Stokes equations in the limit\n of large Grashof numbers","comments":"35 pp. Submitted for publication","journal-ref":null,"doi":null,"report-no":null,"categories":"math.AP math-ph math.MP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We examine how stationary solutions to Galerkin approximations of the\nNavier--Stokes equations behave in the limit as the Grashof number $G$ tends to\n$\\infty$. An appropriate scaling is used to place the Grashof number as a new\ncoefficient of the nonlinear term, while the body force is fixed. A new type of\nasymptotic expansion, as $G\\to\\infty$, for a family of solutions is introduced.\nRelations among the terms in the expansion are obtained by following a\nprocedure that compares and totally orders positive sequences generated by the\nexpansion. The same methodology applies to the case of perturbed body forces\nand similar results are obtained. We demonstrate with a class of forces and\nsolutions that have convergent asymptotic expansions in $G$. All the results\nhold in both two and three dimensions, as well as for both no-slip and periodic\nboundary conditions.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 21:57:02 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Foias","Ciprian",""],["Hoang","Luan",""],["Jolly","Michael S.",""]]} +{"id":"2308.15650","submitter":"Nariman Torkzaban","authors":"Nariman Torkzaban, Amir Khojastepour, John S. Baras","title":"Blind Cyclic Prefix-based CFO Estimation in MIMO-OFDM Systems","comments":"To Appear in Proceedings of IEEE Globecom 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IT eess.SP math.IT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Low-complexity estimation and correction of carrier frequency offset (CFO)\nare essential in orthogonal frequency division multiplexing (OFDM). In this\npaper, we propose a low-overhead blind CFO estimation technique based on cyclic\nprefix (CP), in multi-input multi-output (MIMO)-OFDM systems. We propose to use\nantenna diversity for CFO estimation. Given that the RF chains for all antenna\nelements at a communication node share the same clock, the carrier frequency\noffset (CFO) between two points may be estimated by using the combination of\nthe received signal at all antennas. We improve our method by combining the\nantenna diversity with time diversity by considering the CP for multiple OFDM\nsymbols. We provide a closed-form expression for CFO estimation and present\nalgorithms that can considerably improve the CFO estimation performance at the\nexpense of a linear increase in computational complexity. We validate the\neffectiveness of our estimation scheme via extensive numerical analysis.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 22:02:19 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Torkzaban","Nariman",""],["Khojastepour","Amir",""],["Baras","John S.",""]]} +{"id":"2308.15651","submitter":"Hyunsik Yoo","authors":"Hyunsik Yoo, Zhichen Zeng, Jian Kang, Zhining Liu, David Zhou, Fei\n Wang, Eunice Chan, and Hanghang Tong","title":"Ensuring User-side Fairness in Dynamic Recommender Systems","comments":"10 pages, 8 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IR cs.CY cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" User-side group fairness is crucial for modern recommender systems, as it\naims to alleviate performance disparity between groups of users defined by\nsensitive attributes such as gender, race, or age. We find that the disparity\ntends to persist or even increase over time. This calls for effective ways to\naddress user-side fairness in a dynamic environment, which has been\ninfrequently explored in the literature. However, fairness-constrained\nre-ranking, a typical method to ensure user-side fairness (i.e., reducing\nperformance disparity), faces two fundamental challenges in the dynamic\nsetting: (1) non-differentiability of the ranking-based fairness constraint,\nwhich hinders the end-to-end training paradigm, and (2) time-inefficiency,\nwhich impedes quick adaptation to changes in user preferences. In this paper,\nwe propose FAir Dynamic rEcommender (FADE), an end-to-end framework with\nfine-tuning strategy to dynamically alleviate performance disparity. To tackle\nthe above challenges, FADE uses a novel fairness loss designed to be\ndifferentiable and lightweight to fine-tune model parameters to ensure both\nuser-side fairness and high-quality recommendations. Via extensive experiments\non the real-world dataset, we empirically demonstrate that FADE effectively and\nefficiently reduces performance disparity, and furthermore, FADE improves\noverall recommendation quality over time compared to not using any new data.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 22:03:17 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Yoo","Hyunsik",""],["Zeng","Zhichen",""],["Kang","Jian",""],["Liu","Zhining",""],["Zhou","David",""],["Wang","Fei",""],["Chan","Eunice",""],["Tong","Hanghang",""]]} +{"id":"2308.15652","submitter":"Andreas Ekstedt","authors":"Andreas Ekstedt, Oliver Gould, and Joonas Hirvonen","title":"BubbleDet: A Python package to compute functional determinants for\n bubble nucleation","comments":"40 pages, 12 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph astro-ph.CO hep-th","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We present a Python package, BubbleDet, for computing one-loop functional\ndeterminants around spherically symmetric background fields. This gives the\nnext-to-leading order correction to both the vacuum decay rate, at zero\ntemperature, and to the bubble nucleation rate in first-order phase transitions\nat finite temperature. For predictions of gravitational wave signals from\ncosmological phase transitions, this is expected to remove one of the leading\nsources of theoretical uncertainty. BubbleDet is applicable to arbitrary scalar\npotentials and in any dimension up to seven. It has methods for fluctuations of\nscalar fields, including Goldstone bosons, and for gauge fields, but is limited\nto cases where the determinant factorises into a product of separate\ndeterminants, one for each field degree of freedom. To our knowledge, BubbleDet\nis the first package dedicated to calculating functional determinants in\nspherically symmetric background\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 22:06:23 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Ekstedt","Andreas",""],["Gould","Oliver",""],["Hirvonen","Joonas",""]]} +{"id":"2308.15653","submitter":"Emil Annevelink","authors":"Emil Annevelink, Venkatasubramanian Viswanathan","title":"Statistical methods for resolving poor uncertainty quantification in\n machine learning interatomic potentials","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mtrl-sci","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Machine learning interatomic potentials (MLIPs) are promising surrogates for\nquantum mechanics evaluations in ab-initio molecular dynamics simulations due\nto their ability to reproduce the energy and force landscape within chemical\naccuracy at four orders of magnitude less cost. While developing uncertainty\nquantification (UQ) tools for MLIPs is critical to build production MLIP\ndatasets using active learning, only limited progress has been made and the\nmost robust method, ensembling, still shows low correlation between high error\nand high uncertainty predictions. Here we develop a rigorous method rooted in\nstatistics for determining an error cutoff that distinguishes regions of high\nand low UQ performance. The statistical cutoff illuminates that a main cause of\nthe poor UQ performance is due to the machine learning model already describing\nthe entire dataset and not having any datapoints with error greater than the\nstatistical error distribution. Second, we extend the statistical analysis to\ncreate an interpretable connection between the error and uncertainty\ndistributions to predict an uncertainty cutoff separating high and low errors.\nWe showcase the statistical cutoff in active learning benchmarks on two\ndatasets of varying chemical complexity for three common UQ methods:\nensembling, sparse Gaussian processes, and latent distance metrics and compare\nthem to the true error and random sampling, showing that the statistical cutoff\nis generalizable to a variety of different UQ methods and protocols and\nperforms similarly to using the true error. Importantly, we conclude that\nutilizing this uncertainty cutoff enables using significantly lower cost\nuncertainty quantification tools such as sparse gaussian processes and latent\ndistances compared to ensembling approaches for generating MLIP datasets at a\nfraction of the cost.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 22:10:49 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Annevelink","Emil",""],["Viswanathan","Venkatasubramanian",""]]} +{"id":"2308.15654","submitter":"Peter Bradshaw","authors":"Peter Bradshaw, Alexander Clow, Jingwei Xu","title":"Injective edge colorings of degenerate graphs and the oriented chromatic\n number","comments":"18 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Given a graph $G$, an injective edge-coloring of $G$ is a function $\\psi:E(G)\n\\rightarrow \\mathbb N$ such that if $\\psi(e) = \\psi(e')$, then no third edge\njoins an endpoint of $e$ and an endpoint of $e'$. The injective chromatic index\nof a graph $G$, written $\\chi_{inj}'(G)$, is the minimum number of colors\nneeded for an injective edge coloring of $G$. In this paper, we investigate the\ninjective chromatic index of certain classes of degenerate graphs. First, we\nshow that if $G$ is a $d$-degenerate graph of maximum degree $\\Delta$, then\n$\\chi_{inj}'(G) = O(d^3 \\log \\Delta)$. Next, we show that if $G$ is a graph of\nEuler genus $g$, then $\\chi_{inj}'(G) \\leq (3+o(1))g$, which is tight when $G$\nis a clique. Finally, we show that the oriented chromatic number of a graph is\nat most exponential in its injective chromatic index. Using this fact, we prove\nthat the oriented chromatic number of a graph embedded on a surface of Euler\ngenus $g$ has oriented chromatic number at most $O(g^{6400})$, improving the\npreviously known upper bound of $2^{O(g^{\\frac{1}{2} + \\epsilon})}$ and\nresolving a conjecture of Aravind and Subramanian.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 22:21:10 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Bradshaw","Peter",""],["Clow","Alexander",""],["Xu","Jingwei",""]]} +{"id":"2308.15655","submitter":"Juan Bory Reyes","authors":"Jos\\'e Oscar Gonz\\'alez-Cervantes, Juan Adri\\'an Ram\\'irez-Belman,\n Juan Bory-Reyes","title":"A bicomplex proportional fractional $(\\vartheta,\\varphi)-$weighted\n Cauchy-Riemann operator using Riemann-Liouville derivatives with respect to\n an hyperbolic-valued function","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Based on the Riemann-Liouville derivatives with respect to functions taking\nvalues in the set of hyperbolic numbers, we consider a novel bicomplex\nproportional fractional $(\\vartheta,\\varphi)-$weighted Cauchy-Riemann operator,\ninvolving weights hyperbolic orthogonal bicomplex functions. This operator is\ndefined for the first time here, and its associated fractional Borel-Pompeiu\nformula is proved as the main result.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 22:22:40 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Gonz\u00e1lez-Cervantes","Jos\u00e9 Oscar",""],["Ram\u00edrez-Belman","Juan Adri\u00e1n",""],["Bory-Reyes","Juan",""]]} +{"id":"2308.15656","submitter":"Sikai Chen","authors":"Jiaming Wang, Jiqian Dong, Sikai Chen, Shreyas Sundaram, Samuel Labi","title":"Deep Reinforcement Learning Based Framework for Mobile Energy\n Disseminator Dispatching to Charge On-the-Road Electric Vehicles","comments":"Submitted for presentation only at the 2024 Annual Meeting of the\n Transportation Research Board","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.RO cs.AI cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The exponential growth of electric vehicles (EVs) presents novel challenges\nin preserving battery health and in addressing the persistent problem of\nvehicle range anxiety. To address these concerns, wireless charging,\nparticularly, Mobile Energy Disseminators (MEDs) have emerged as a promising\nsolution. The MED is mounted behind a large vehicle and charges all\nparticipating EVs within a radius upstream of it. Unfortuantely, during such\nV2V charging, the MED and EVs inadvertently form platoons, thereby occupying\nmultiple lanes and impairing overall corridor travel efficiency. In addition,\nconstrained budgets for MED deployment necessitate the development of an\neffective dispatching strategy to determine optimal timing and locations for\nintroducing the MEDs into traffic. This paper proposes a deep reinforcement\nlearning (DRL) based methodology to develop a vehicle dispatching framework. In\nthe first component of the framework, we develop a realistic reinforcement\nlearning environment termed \"ChargingEnv\" which incorporates a reliable\ncharging simulation system that accounts for common practical issues in\nwireless charging deployment, specifically, the charging panel misalignment.\nThe second component, the Proximal-Policy Optimization (PPO) agent, is trained\nto control MED dispatching through continuous interactions with ChargingEnv.\nNumerical experiments were carried out to demonstrate the demonstrate the\nefficacy of the proposed MED deployment decision processor. The experiment\nresults suggest that the proposed model can significantly enhance EV travel\nrange while efficiently deploying a optimal number of MEDs. The proposed model\nis found to be not only practical in its applicability but also has promises of\nreal-world effectiveness. The proposed model can help travelers to maximize EV\nrange and help road agencies or private-sector vendors to manage the deployment\nof MEDs efficiently.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 22:23:52 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Wang","Jiaming",""],["Dong","Jiqian",""],["Chen","Sikai",""],["Sundaram","Shreyas",""],["Labi","Samuel",""]]} +{"id":"2308.15657","submitter":"Nicole Ford","authors":"N. M. Ford, Nicholas Vieira, John J. Ruan, Daryl Haggard","title":"KilonovAE: Exploring Kilonova Spectral Features with Autoencoders","comments":"23 pages, 13 figures, 4 tables, submitted to ApJ","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.HE astro-ph.SR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Kilonovae are likely a key site of heavy r-process element production in the\nUniverse, and their optical/infrared spectra contain insights into both the\nproperties of the ejecta and the conditions of the r-process. However, the\nevent GW170817/AT2017gfo is the only kilonova so far with well-observed\nspectra. To understand the diversity of absorption features that might be\nobserved in future kilonovae spectra, we use the TARDIS Monte Carlo radiative\ntransfer code to simulate a suite of optical spectra spanning a wide range of\nkilonova ejecta properties and r-process abundance patterns. To identify the\nmost common and prominent absorption lines, we perform dimensionality reduction\nusing an autoencoder, and we find spectra clusters in the latent space\nrepresentation using a Bayesian Gaussian Mixture model. Our synthetic kilonovae\nspectra commonly display strong absorption by strontium Sr II, yttrium Y II,\nand zirconium Zr I - II, with strong lanthanide contributions at low electron\nfractions (Ye < 0.25). When a new kilonova is observed, our machine learning\nframework will provide context on the dominant absorption lines and key ejecta\nproperties, helping to determine where this event falls within the larger 'zoo'\nof kilonovae spectra.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 22:27:08 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Ford","N. M.",""],["Vieira","Nicholas",""],["Ruan","John J.",""],["Haggard","Daryl",""]]} +{"id":"2308.15658","submitter":"Ian Zemke","authors":"Ian Zemke","title":"A general Heegaard Floer surgery formula","comments":"91 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.GT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We give several new perspectives on the Heegaard Floer Dehn surgery formulas\nof Manolescu, Ozsv\\'{a}th and Szab\\'{o}. Our main result is a new exact\ntriangle in the Fukaya category of the torus which gives a new proof of these\nformulas. This exact triangle is different from the one which appeared in\nOzsv\\'{a}th and Szab\\'{o}'s original proof. This exact triangle simplifies a\nnumber of technical aspects in their proofs and also allows us to prove several\nnew results. A first application is an extensions of the link surgery formula\nto arbitrary links in closed 3-manifolds, with no restrictions on the link\nbeing null-homologous. A second application is a proof that the modules for\nbordered manifolds with torus boundaries, defined by the author in a previous\npaper, are invariants. Another application is a simple proof of a version of\nthe surgery formula which computes knot and link Floer complexes in terms of\nsubcubes of the link surgery hypercube. As a final application, we show that\nthe knot surgery algebra is homotopy equivalent to an endomorphism algebra of a\nsum of two decorated Lagrangians in the torus, mirroring a result of Auroux\nconcerning the algebras of Lipshitz, Ozsv\\'{a}th and Thurston.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 22:40:29 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Zemke","Ian",""]]} +{"id":"2308.15659","submitter":"Nariman Torkzaban","authors":"Nariman Torkzaban, Amir Khojastepour, John S. Baras","title":"Enabling Cooperative Hybrid Beamforming in TDD-based Distributed MIMO\n Systems","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IT cs.NI math.IT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Distributed massive MIMO networks are envisioned to realize cooperative\nmulti-point transmission in next-generation wireless systems. For efficient\ncooperative hybrid beamforming, the cluster of access points (APs) needs to\nobtain precise estimates of the uplink channel to perform reliable downlink\nprecoding. However, due to the radio frequency (RF) impairments between the\ntransceivers at the two en-points of the wireless channel, full channel\nreciprocity does not hold which results in performance degradation in the\ncooperative hybrid beamforming (CHBF) unless a suitable reciprocity calibration\nmechanism is in place. We propose a two-step approach to calibrate any two\nhybrid nodes in the distributed MIMO system. We then present and utilize the\nnovel concept of reciprocal tandem to propose a low-complexity approach for\njointly calibrating the cluster of APs and estimating the downlink channel.\nFinally, we validate our calibration technique's effectiveness through\nnumerical simulation.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 22:43:15 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Torkzaban","Nariman",""],["Khojastepour","Amir",""],["Baras","John S.",""]]} +{"id":"2308.15660","submitter":"Minh-Quan Le","authors":"Minh-Quan Le, Minh-Triet Tran, Trung-Nghia Le, Tam V. Nguyen,\n Thanh-Toan Do","title":"Unveiling Camouflage: A Learnable Fourier-based Augmentation for\n Camouflaged Object Detection and Instance Segmentation","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Camouflaged object detection (COD) and camouflaged instance segmentation\n(CIS) aim to recognize and segment objects that are blended into their\nsurroundings, respectively. While several deep neural network models have been\nproposed to tackle those tasks, augmentation methods for COD and CIS have not\nbeen thoroughly explored. Augmentation strategies can help improve the\nperformance of models by increasing the size and diversity of the training data\nand exposing the model to a wider range of variations in the data. Besides, we\naim to automatically learn transformations that help to reveal the underlying\nstructure of camouflaged objects and allow the model to learn to better\nidentify and segment camouflaged objects. To achieve this, we propose a\nlearnable augmentation method in the frequency domain for COD and CIS via\nFourier transform approach, dubbed CamoFourier. Our method leverages a\nconditional generative adversarial network and cross-attention mechanism to\ngenerate a reference image and an adaptive hybrid swapping with parameters to\nmix the low-frequency component of the reference image and the high-frequency\ncomponent of the input image. This approach aims to make camouflaged objects\nmore visible for detection and segmentation models. Without bells and whistles,\nour proposed augmentation method boosts the performance of camouflaged object\ndetectors and camouflaged instance segmenters by large margins.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 22:43:46 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Le","Minh-Quan",""],["Tran","Minh-Triet",""],["Le","Trung-Nghia",""],["Nguyen","Tam V.",""],["Do","Thanh-Toan",""]]} +{"id":"2308.15661","submitter":"Abootaleb Shirvani","authors":"Thisari K. Mahanama, Abootaleb Shirvani, Svetlozar Rachev, Frank J.\n Fabozzi","title":"The Financial Market of Environmental Indices","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"q-fin.CP","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" This paper introduces the concept of a global financial market for\nenvironmental indices, addressing sustainability concerns and aiming to attract\ninstitutional investors. Risk mitigation measures are implemented to manage\ninherent risks associated with investments in this new financial market. We\nmonetize the environmental indices using quantitative measures and construct\ncountry-specific environmental indices, enabling them to be viewed as\ndollar-denominated assets. Our primary goal is to encourage the active\nengagement of institutional investors in portfolio analysis and trading within\nthis emerging financial market. To evaluate and manage investment risks, our\napproach incorporates financial econometric theory and dynamic asset pricing\ntools. We provide an econometric analysis that reveals the relationships\nbetween environmental and economic indicators in this market. Additionally, we\nderive financial put options as insurance instruments that can be employed to\nmanage investment risks. Our factor analysis identifies key drivers in the\nglobal financial market for environmental indices. To further evaluate the\nmarket's performance, we employ pricing options, efficient frontier analysis,\nand regression analysis. These tools help us assess the efficiency and\neffectiveness of the market. Overall, our research contributes to the\nunderstanding and development of the global financial market for environmental\nindices.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 22:50:49 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Mahanama","Thisari K.",""],["Shirvani","Abootaleb",""],["Rachev","Svetlozar",""],["Fabozzi","Frank J.",""]]} +{"id":"2308.15662","submitter":"Krzysztof D\\k{e}bicki","authors":"Krzysztof D\\c{e}bicki, Enkelejd Hashorva, Peng Liu","title":"Sojourns of fractional Brownian motion queues: transient asymptotics","comments":"25 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.PR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We study the asymptotics of sojourn time of the stationary queueing process\n$Q(t),t\\ge0$ fed by a fractional Brownian motion with Hurst parameter\n$H\\in(0,1)$ above a high threshold $u$. For the Brownian motion case $H=1/2$,\nwe derive the exact asymptotics of\n \\[\n P\\left(\\int_{T_1}^{T_2} 1(Q(t)>u+h(u))d t>x \\Big{|}Q(0) >u \\right)\n \\]\n as $u\\to\\infty$, {where $T_1,T_2, x\\geq 0$ and $T_2-T_1>x$}, whereas for all\n$H\\in(0,1)$, we obtain sharp asymptotic approximations of\n \\[\n P\\left( \\frac 1 {v(u)} \\int_{[T_2(u),T_3(u)]}1(Q(t)>u+h(u))dt>y \\Bigl \\lvert\n\\frac 1 {v(u)} \\int_{[0,T_1(u)]}1(Q(t)>u)dt>x\\right), \\quad x,y >0\n \\]\n as $u\\to\\infty$, for appropriately chosen $T_i$'s and $v$. Two regimes of the\nratio between $u$ and $h(u)$, that lead to qualitatively different\napproximations, are considered.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 22:53:15 GMT"}],"update_date":"2023-08-31","authors_parsed":[["D\u0229bicki","Krzysztof",""],["Hashorva","Enkelejd",""],["Liu","Peng",""]]} +{"id":"2308.15663","submitter":"Atefeh Mahdavi","authors":"Atefeh Mahdavi, Neda Keivandarian, Marco Carvalho","title":"Adaptive Attack Detection in Text Classification: Leveraging Space\n Exploration Features for Text Sentiment Classification","comments":"Presented at 2nd International Workshop on Adaptive Cyber Defense,\n 2023 (arXiv:2308.09520)","journal-ref":null,"doi":null,"report-no":"ACD/2023/108","categories":"cs.CR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Adversarial example detection plays a vital role in adaptive cyber defense,\nespecially in the face of rapidly evolving attacks. In adaptive cyber defense,\nthe nature and characteristics of attacks continuously change, making it\ncrucial to have robust mechanisms in place to detect and counter these threats\neffectively. By incorporating adversarial example detection techniques,\nadaptive cyber defense systems can enhance their ability to identify and\nmitigate attacks that attempt to exploit vulnerabilities in machine learning\nmodels or other systems. Adversarial examples are inputs that are crafted by\napplying intentional perturbations to natural inputs that result in incorrect\nclassification. In this paper, we propose a novel approach that leverages the\npower of BERT (Bidirectional Encoder Representations from Transformers) and\nintroduces the concept of Space Exploration Features. We utilize the feature\nvectors obtained from the BERT model's output to capture a new representation\nof feature space to improve the density estimation method.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 23:02:26 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Mahdavi","Atefeh",""],["Keivandarian","Neda",""],["Carvalho","Marco",""]]} +{"id":"2308.15664","submitter":"Brahim Ait Ouazghour","authors":"Brahim Ait Ouazghour, Abdesslam Arhrib, Kingman Cheung, Es-said\n Ghourmin, Larbi Rahili","title":"Charged Higgs production at the Muon Collider in the 2HDM","comments":"41 pages, 11 figures, 8 tables","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We study the phenomenology of the charged Higgs boson at future muon\ncolliders. We investigate both the pair production $\\mu^+ \\mu^- \\to H^+ H^-$,\nas well as the single production $\\mu^+ \\mu^- \\to W^\\pm H^\\mp$. We show that\nthe neutral Higgs exchange diagrams can lead to a significant boost in\nproduction cross sections either through their Yukawa couplings or the\nresonance effect when the neutral Higgs mass is near the center of mass energy.\nOur results for the muon collider are systematically compared to the\ncorresponding ones at $e^+e^-$ machines. We select benchmark points and perform\nsignal-background analyses, taking into account detector simulations. We\ndemonstrate the discovery region at $5\\sigma$ and the excluded region at\n$2\\sigma$ levels at a 500~GeV muon collider.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 23:11:34 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Ouazghour","Brahim Ait",""],["Arhrib","Abdesslam",""],["Cheung","Kingman",""],["Ghourmin","Es-said",""],["Rahili","Larbi",""]]} +{"id":"2308.15665","submitter":"Dong-Xia Qu","authors":"Luis A. Martinez, Gang Qiu, Peng Deng, Peng Zhang, Keith G. Ray,\n Lixuan Tai, Ming-Tso Wei, Haoran He, Kang L. Wang, Jonathan L DuBois, and\n Dong-Xia Qu","title":"Edge Magnetoplasmon Dispersion and Time-Resolved Plasmon Transport in a\n Quantum Anomalous Hall Insulator","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mtrl-sci","license":"http://creativecommons.org/publicdomain/zero/1.0/","abstract":" A quantum anomalous Hall (QAH) insulator breaks reciprocity by combining\nmagnetic polarization and spin-orbit coupling to generate a unidirectional\ntransmission of signals in the absence of an external magnetic field. Such\nbehavior makes QAH materials a good platform for the innovation of circulator\ntechnologies. However, it remains elusive as to how the wavelength of the\nchiral edge plasmon relates to its frequency and how the plasmon wave packet is\nexcited in the time domain in a QAH insulator. Here, we investigate the edge\nmagnetoplasmon (EMP) resonances in Cr-(Bi,Sb)$_2$Te$_3$ by frequency and time\ndomain measurements. From disk shaped samples with various dimensions, we\nobtain the dispersion relation of EMPs and extract the drift velocity of the\nchiral edge state. From the time-resolved transport measurements, we identify\nthe velocity of the plasmon wave packet and observe a transition from the edge\nto bulk transport at an elevated temperature. We show that the frequency and\ntime domain measurements are well modeled by loss from the microwave induced\ndissipative channels in the bulk area. Our results demonstrate that the EMP\ndecay rate can be significantly reduced by applying a low microwave power and\nfabricating devices of larger diameter $\\ge100~\\mu$m. In a $R=125~\\mu$m sample,\na non-reciprocity of 20 dB has been realized at 1.3 GHz, shining light on using\nQAH insulators to develop on-chip non-reciprocal devices.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 23:32:09 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Martinez","Luis A.",""],["Qiu","Gang",""],["Deng","Peng",""],["Zhang","Peng",""],["Ray","Keith G.",""],["Tai","Lixuan",""],["Wei","Ming-Tso",""],["He","Haoran",""],["Wang","Kang L.",""],["DuBois","Jonathan L",""],["Qu","Dong-Xia",""]]} +{"id":"2308.15666","submitter":"Markus Haltmeier","authors":"Andrea Ebner and Markus Haltmeier","title":"Convergence of non-linear diagonal frame filtering for regularizing\n inverse problems","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.NA cs.NA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Inverse problems are core issues in several scientific areas, including\nsignal processing and medical imaging. As inverse problems typically suffer\nfrom instability with respect to data perturbations, a variety of\nregularization techniques have been proposed. In particular, the use of\nfiltered diagonal frame decompositions has proven to be effective and\ncomputationally efficient. However, the existing convergence analysis applies\nonly to linear filters and a few non-linear filters such as soft thresholding.\nIn this paper, we analyze the filtered diagonal frame decomposition with\ngeneral non-linear filters. In particular, our results generalize SVD-based\nspectral filtering from linear to non-linear filters as a special case. We\npresent three strategies to demonstrate convergence. The first two strategies\nrelate non-linear diagonal frame filtering to variational regularization and\nplug-and-play regularization, respectively. The third strategy allows us to\nrelax the assumptions involved and still obtain a full convergence analysis.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 23:32:26 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Ebner","Andrea",""],["Haltmeier","Markus",""]]} +{"id":"2308.15667","submitter":"Guanfang Dong","authors":"Guanfang Dong, Chenqiu Zhao, Anup Basu","title":"Bridging Distribution Learning and Image Clustering in High-dimensional\n Space","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.CV","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Distribution learning focuses on learning the probability density function\nfrom a set of data samples. In contrast, clustering aims to group similar\nobjects together in an unsupervised manner. Usually, these two tasks are\nconsidered unrelated. However, the relationship between the two may be\nindirectly correlated, with Gaussian Mixture Models (GMM) acting as a bridge.\nIn this paper, we focus on exploring the correlation between distribution\nlearning and clustering, with the motivation to fill the gap between these two\nfields, utilizing an autoencoder (AE) to encode images into a high-dimensional\nlatent space. Then, Monte-Carlo Marginalization (MCMarg) and Kullback-Leibler\n(KL) divergence loss are used to fit the Gaussian components of the GMM and\nlearn the data distribution. Finally, image clustering is achieved through each\nGaussian component of GMM. Yet, the \"curse of dimensionality\" poses severe\nchallenges for most clustering algorithms. Compared with the classic\nExpectation-Maximization (EM) Algorithm, experimental results show that MCMarg\nand KL divergence can greatly alleviate the difficulty. Based on the\nexperimental results, we believe distribution learning can exploit the\npotential of GMM in image clustering within high-dimensional space.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 23:35:36 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Dong","Guanfang",""],["Zhao","Chenqiu",""],["Basu","Anup",""]]} +{"id":"2308.15668","submitter":"Liam Magee","authors":"Shanthi Robertson, Liam Magee, and Karen Soldati\\'c","title":"Intersectional Inquiry, on the Ground and in the Algorithm","comments":null,"journal-ref":"Qualitative Inquiry, 28(7), 814-826 (2022)","doi":"10.1177/10778004221099560","report-no":null,"categories":"cs.CY","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" This article makes two key contributions to methodological debates in\nautomation research. First, we argue for and demonstrate how methods in this\nfield must account for intersections of social difference, such as race, class,\nethnicity, culture, and disability, in more nuanced ways. Second, we consider\nthe complexities of bringing together computational and qualitative methods in\nan intersectional methodological approach while also arguing that in their\nrespective subjects (machines and human subjects) and conceptual scope they\nenable a specific dialogue on intersectionality and automation to be\narticulated. We draw on field reflections from a project that combines an\nanalysis of intersectional bias in language models with findings from a\ncommunity workshop on the frustrations and aspirations produced through\nengagement with everyday AI-driven technologies in the context of care.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 23:43:58 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Robertson","Shanthi",""],["Magee","Liam",""],["Soldati\u0107","Karen",""]]} +{"id":"2308.15669","submitter":"Andrew Chen","authors":"Andrew Chen, Yanfu Yan, Denys Poshyvanyk","title":"ACER: An AST-based Call Graph Generator Framework","comments":"6 pages, 3 tables, 4 figures, 1 algorithm, accepted by SCAM'23","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SE","license":"http://creativecommons.org/publicdomain/zero/1.0/","abstract":" We introduce ACER, an AST-based call graph generator framework. ACER\nleverages tree-sitter to interface with any language. We opted to focus on\ngenerators that operate on abstract syntax trees (ASTs) due to their speed and\nsimplicitly in certain scenarios; however, a fully quantified intermediate\nrepresentation usually provides far better information at the cost of requiring\ncompilation. To evaluate our framework, we created two context-insensitive Java\ngenerators and compared them to existing open-source Java generators.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 23:44:35 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Chen","Andrew",""],["Yan","Yanfu",""],["Poshyvanyk","Denys",""]]} +{"id":"2308.15670","submitter":"David Ouyang","authors":"Matthew Christensen, Milos Vukadinovic, Neal Yuan, David Ouyang","title":"Multimodal Foundation Models For Echocardiogram Interpretation","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV cs.AI","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Multimodal deep learning foundation models can learn the relationship between\nimages and text. In the context of medical imaging, mapping images to language\nconcepts reflects the clinical task of diagnostic image interpretation, however\ncurrent general-purpose foundation models do not perform well in this context\nbecause their training corpus have limited medical text and images. To address\nthis challenge and account for the range of cardiac physiology, we leverage\n1,032,975 cardiac ultrasound videos and corresponding expert interpretations to\ndevelop EchoCLIP, a multimodal foundation model for echocardiography. EchoCLIP\ndisplays strong zero-shot (not explicitly trained) performance in cardiac\nfunction assessment (external validation left ventricular ejection fraction\nmean absolute error (MAE) of 7.1%) and identification of implanted intracardiac\ndevices (areas under the curve (AUC) between 0.84 and 0.98 for pacemakers and\nartificial heart valves). We also developed a long-context variant (EchoCLIP-R)\nwith a custom echocardiography report text tokenizer which can accurately\nidentify unique patients across multiple videos (AUC of 0.86), identify\nclinical changes such as orthotopic heart transplants (AUC of 0.79) or cardiac\nsurgery (AUC 0.77), and enable robust image-to-text search (mean cross-modal\nretrieval rank in the top 1% of candidate text reports). These emergent\ncapabilities can be used for preliminary assessment and summarization of\nechocardiographic findings.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 23:45:54 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Christensen","Matthew",""],["Vukadinovic","Milos",""],["Yuan","Neal",""],["Ouyang","David",""]]} +{"id":"2308.15671","submitter":"Michael Kuhn","authors":"Michael Kuhn, Daniel Lokshtanov, Zachary Miller","title":"Lower Bound for Independence Covering in $C_4$-Free Graphs","comments":"8 pages, 1 figure","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DM math.CO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" An independent set in a graph $G$ is a set $S$ of pairwise non-adjacent\nvertices in $G$. A family $\\mathcal{F}$ of independent sets in $G$ is called a\n$k$-independence covering family if for every independent set $I$ in $G$ of\nsize at most $k$, there exists an $S \\in \\mathcal{F}$ such that $I \\subseteq\nS$.\n Lokshtanov et al. [ACM Transactions on Algorithms, 2018] showed that graphs\nof degeneracy $d$ admit $k$-independence covering families of size\n$\\binom{k(d+1)}{k} \\cdot 2^{o(kd)} \\cdot \\log n$, and used this result to\ndesign efficient parameterized algorithms for a number of problems, including\nSTABLE ODD CYCLE TRANSVERSAL and STABLE MULTICUT.\n In light of the results of Lokshtanov et al. it is quite natural to ask\nwhether even more general families of graphs admit $k$-independence covering\nfamilies of size $f(k)n^{O(1)}$.\n Graphs that exclude a complete bipartite graph $K_{d+1,d+1}$ with $d+1$\nvertices on both sides as a subgraph, called $K_{d+1,d+1}$-free graphs, are a\nfrequently considered generalization of $d$-degenerate graphs.\n This motivates the question whether $K_{d,d}$-free graphs admit\n$k$-independence covering families of size $f(k,d)n^{O(1)}$. Our main result is\na resounding \"no\" to this question -- specifically we prove that even\n$K_{2,2}$-free graphs (or equivalently $C_4$-free graphs) do not admit\n$k$-independence covering families of size $f(k)n^{\\frac{k}{4}-\\epsilon}$.\n","versions":[{"version":"v1","created":"Tue, 29 Aug 2023 23:46:16 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kuhn","Michael",""],["Lokshtanov","Daniel",""],["Miller","Zachary",""]]} +{"id":"2308.15672","submitter":"Lingjiong Zhu","authors":"Dan Pirjol, Lingjiong Zhu","title":"Asymptotics for Short Maturity Asian Options in a Jump-Diffusion model\n with Local Volatility","comments":"28 pages, 3 figures, 4 tables","journal-ref":null,"doi":null,"report-no":null,"categories":"q-fin.PR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We present a study of the short maturity asymptotics for Asian options in a\njump-diffusion model with a local volatility component, where the jumps are\nmodeled as a compound Poisson process which are later extended to L\\'evy jumps,\nthat includes the exponential L\\'{e}vy model as a special case. Both fixed and\nfloating strike Asian options are considered. Explicit results are obtained for\nthe first-order asymptotics of the Asian options prices for a few popular\nmodels in the literature: the Merton jump-diffusion model, the\ndouble-exponential jump model, and the Variance Gamma model. We propose an\nanalytical approximation for Asian option prices which satisfies the\nconstraints from the short-maturity asymptotics, and test it against Monte\nCarlo simulations. The asymptotic results are in good agreement with numerical\nsimulations for sufficiently small maturity.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 00:00:57 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Pirjol","Dan",""],["Zhu","Lingjiong",""]]} +{"id":"2308.15673","submitter":"Bhaskar Ramasubramanian","authors":"Arezoo Rajabi, Surudhi Asokraj, Fengqing Jiang, Luyao Niu, Bhaskar\n Ramasubramanian, Jim Ritcey, Radha Poovendran","title":"MDTD: A Multi Domain Trojan Detector for Deep Neural Networks","comments":"Accepted to ACM Conference on Computer and Communications Security\n (ACM CCS) 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CR cs.LG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Machine learning models that use deep neural networks (DNNs) are vulnerable\nto backdoor attacks. An adversary carrying out a backdoor attack embeds a\npredefined perturbation called a trigger into a small subset of input samples\nand trains the DNN such that the presence of the trigger in the input results\nin an adversary-desired output class. Such adversarial retraining however needs\nto ensure that outputs for inputs without the trigger remain unaffected and\nprovide high classification accuracy on clean samples. In this paper, we\npropose MDTD, a Multi-Domain Trojan Detector for DNNs, which detects inputs\ncontaining a Trojan trigger at testing time. MDTD does not require knowledge of\ntrigger-embedding strategy of the attacker and can be applied to a pre-trained\nDNN model with image, audio, or graph-based inputs. MDTD leverages an insight\nthat input samples containing a Trojan trigger are located relatively farther\naway from a decision boundary than clean samples. MDTD estimates the distance\nto a decision boundary using adversarial learning methods and uses this\ndistance to infer whether a test-time input sample is Trojaned or not. We\nevaluate MDTD against state-of-the-art Trojan detection methods across five\nwidely used image-based datasets: CIFAR100, CIFAR10, GTSRB, SVHN, and\nFlowers102; four graph-based datasets: AIDS, WinMal, Toxicant, and COLLAB; and\nthe SpeechCommand audio dataset. MDTD effectively identifies samples that\ncontain different types of Trojan triggers. We evaluate MDTD against adaptive\nattacks where an adversary trains a robust DNN to increase (decrease) distance\nof benign (Trojan) inputs from a decision boundary.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 00:03:03 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Rajabi","Arezoo",""],["Asokraj","Surudhi",""],["Jiang","Fengqing",""],["Niu","Luyao",""],["Ramasubramanian","Bhaskar",""],["Ritcey","Jim",""],["Poovendran","Radha",""]]} +{"id":"2308.15674","submitter":"Azadeh Golduzian","authors":"Azadeh Golduzian","title":"Predict And Prevent DDOS Attacks Using Machine Learning and Statistical\n Algorithms","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" A malicious attempt to exhaust a victim's resources to cause it to crash or\nhalt its services is known as a distributed denial-of-service (DDoS) attack.\nDDOS attacks stop authorized users from accessing specific services available\non the Internet. It targets varying components of a network layer and it is\nbetter to stop into layer 4 (transport layer) of the network before approaching\na higher layer. This study uses several machine learning and statistical models\nto detect DDoS attacks from traces of traffic flow and suggests a method to\nprevent DDOS attacks. For this purpose, we used logistic regression, CNN,\nXGBoost, naive Bayes, AdaBoostClassifier, KNN, and random forest ML algorithms.\nIn addition, data preprocessing was performed using three methods to identify\nthe most relevant features. This paper explores the issue of improving the DDOS\nattack detection accuracy using the latest dataset named CICDDoS2019, which has\nover 50 million records. Because we employed an extensive dataset for this\ninvestigation, our findings are trustworthy and practical. Our target class\n(attack class) was imbalanced. Therefore, we used two techniques to deal with\nimbalanced data in machine learning. The XGboost machine learning model\nprovided the best detection accuracy of (99.9999%) after applying the SMOTE\napproach to the target class, outperforming recently developed DDoS detection\nsystems. To the best of our knowledge, no other research has worked on the most\nrecent dataset with over 50 million records, addresses the statistical\ntechnique to select the most significant feature, has this high accuracy, and\nsuggests ways to avoid DDOS attackI.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 00:03:32 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Golduzian","Azadeh",""]]} +{"id":"2308.15675","submitter":"Aaron Goodwin-Jones","authors":"Aaron W. Goodwin-Jones and Haochen Zhu and Carl Blair and Daniel D.\n Brown and Joris van Heijningen and Li Ju and Chunnong Zhao","title":"Single and coupled cavity mode sensing schemes using a diagnostic field","comments":null,"journal-ref":null,"doi":null,"report-no":"LIGO-P2300010","categories":"physics.optics astro-ph.IM quant-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Precise optical mode matching is of critical importance in experiments using\nsqueezed-vacuum states. Automatic spatial-mode matching schemes have the\npotential to reduce losses and improve loss stability. However, in\nquantum-enhanced coupled-cavity experiments, such as gravitational-wave\ndetectors, one must also ensure that the sub-cavities are also mode matched. We\npropose a new mode sensing scheme, which works for simple and coupled cavities.\nThe scheme requires no moving parts, nor tuning of Gouy phases. Instead a\ndiagnostic field tuned to the HG20/LG10 mode frequency is used. The error\nsignals are derived to be proportional to the difference in waist position, and\ndifference in Rayleigh ranges, between the sub-cavity eigenmodes. The two error\nsignals are separable by 90 degrees of demodulation phase. We demonstrate\nreasonable error signals for a simplified Einstein Telescope optical design.\nThis work will facilitate routine use of extremely high levels of squeezing in\ncurrent and future gravitational-wave detectors.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 00:07:48 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Goodwin-Jones","Aaron W.",""],["Zhu","Haochen",""],["Blair","Carl",""],["Brown","Daniel D.",""],["van Heijningen","Joris",""],["Ju","Li",""],["Zhao","Chunnong",""]]} +{"id":"2308.15676","submitter":"Zhiyan Ding","authors":"Zhiyan Ding and Chi-Fang (Anthony) Chen and Lin Lin","title":"Single-ancilla ground state preparation via Lindbladians","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We design an early fault-tolerant quantum algorithm for ground state\npreparation. As a Monte Carlo-style quantum algorithm, our method features a\nLindbladian where the target state is stationary, and its evolution can be\nefficiently implemented using just one ancilla qubit. Our algorithm can prepare\nthe ground state even when the initial state has zero overlap with the ground\nstate, bypassing the most significant limitation of methods like quantum phase\nestimation. As a variant, we also propose a discrete-time algorithm, which\ndemonstrates even better efficiency, providing a near-optimal simulation cost\nfor the simulation time and precision. Numerical simulation using Ising models\nand Hubbard models demonstrates the efficacy and applicability of our method.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 00:11:19 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Ding","Zhiyan","","Anthony"],["Chi-Fang","","","Anthony"],["Chen","",""],["Lin","Lin",""]]} +{"id":"2308.15677","submitter":"Hyosun Kim Dr.","authors":"Hyosun Kim (Korea Astronomy and Space Science Institute)","title":"Transverse Wind Velocity Recorded in Spiral-Shell Pattern","comments":"9 pages, 8 figures, Published in JKAS","journal-ref":"Journal of Korean Astronomical Society, 56, 149 (2023)","doi":"10.5303/JKAS.2023.56.2.149","report-no":null,"categories":"astro-ph.SR","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" The propagation speed of a circumstellar pattern revealed in the plane of the\nsky is often assumed to represent the expansion speed of the wind matter\nejected from a post-main-sequence star at the center. We point out that the\noften-adopted isotropic wind assumption and the binary hypothesis as the\nunderlying origin for the circumstellar pattern in the shape of multilayered\nshells are, however, mutually incompatible. We revisit the hydrodynamic models\nfor spiral-shell patterns induced by the orbital motion of a hypothesized\nbinary, of which one star is losing mass at a high rate. The distributions of\ntransverse wind velocities as a function of position angle in the plane of the\nsky are explored along viewing directions. The variation of the transverse wind\nvelocity is as large as half the average wind velocity over the entire three\ndimensional domain in the simulated models investigated in this work. The\ndirectional dependence of the wind velocity is indicative of the overall\nmorphology of the circumstellar material, implying that kinematic information\nis an important ingredient in modeling the snapshot monitoring (often in the\noptical and near-infrared) or the spectral imaging observations for molecular\nline emissions.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 00:15:01 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kim","Hyosun","","Korea Astronomy and Space Science Institute"]]} +{"id":"2308.15678","submitter":"Th\\'eo Michelot","authors":"Th\\'eo Michelot, Natasha J. Klappstein, Jonathan R. Potts, John\n Fieberg","title":"Understanding step selection analysis through numerical integration","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"q-bio.QM stat.AP","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Step selection functions (SSFs) are flexible models to jointly describe\nanimals' movement and habitat preferences. Their popularity has grown rapidly\nand extensions have been developed to increase their utility, including various\ndistributions to describe movement constraints, interactions to allow movements\nto depend on local environmental features, and random effects and latent states\nto account for within- and among-individual variability. Although the SSF is a\nrelatively simple statistical model, its presentation has not been consistent\nin the literature, leading to confusion about model flexibility and\ninterpretation. We believe that part of the confusion has arisen from the\nconflation of the SSF model with the methods used for parameter estimation.\nNotably, conditional logistic regression can be used to fit SSFs in exponential\nform, and this approach is often presented interchangeably with the actual\nmodel (the SSF itself). However, reliance on conditional logistic regression\nreduces model flexibility, and suggests a misleading interpretation of step\nselection analysis as being equivalent to a case-control study. In this review,\nwe explicitly distinguish between model formulation and inference technique,\npresenting a coherent framework to fit SSFs based on numerical integration and\nmaximum likelihood estimation. We provide an overview of common numerical\nintegration techniques, and explain how they relate to step selection analyses.\nThis framework unifies different model fitting techniques for SSFs, and opens\nthe way for improved inference. In particular, it makes it straightforward to\nmodel movement with distributions outside the exponential family, and to apply\ndifferent SSF formulations to a data set and compare them with AIC. By\nseparating the model formulation from the inference technique, we hope to\nclarify many important concepts in step selection analysis.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 00:26:54 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Michelot","Th\u00e9o",""],["Klappstein","Natasha J.",""],["Potts","Jonathan R.",""],["Fieberg","John",""]]} +{"id":"2308.15679","submitter":"Hyosun Kim Dr.","authors":"Hyosun Kim, Ho-Gyu Lee, Youichi Ohyama, Ji Hoon Kim, Peter Scicluna,\n You-Hua Chu, Nicolas Mauron and Toshiya Ueta","title":"The porous envelope and circumstellar wind matter of the closest carbon\n star, CW Leonis","comments":"6 pages, 4 figures, Winds of Stars and Exoplanets. Proceedings of the\n International Astronomical Union, Volume 370, pp. 78-83","journal-ref":"Proceedings of the International Astronomical Union, 17(S370),\n 78-83 (2023)","doi":"10.1017/S1743921322004604","report-no":null,"categories":"astro-ph.SR","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" Recent abrupt changes of CW Leonis may indicate that we are witnessing the\nmoment that the central carbon star is evolving off the Asymptotic Giant Branch\n(AGB) and entering into the pre-planetary nebula (PPN) phase. The recent\nappearance of a red compact peak at the predicted stellar position is possibly\nan unveiling event of the star, and the radial beams emerging from the stellar\nposition resemble the feature of the PPN Egg Nebula. The increase of light\ncurve over two decades is also extraordinary, and it is possibly related to the\nphase transition. Decadal-period variations are further found in the residuals\nof light curves, in the relative brightness of radial beams, and in the\nextended halo brightness distribution. Further monitoring of the recent\ndramatic and decadal-scale changes of this most well-known carbon star CW\nLeonis at the tip of AGB is still highly essential, and will help us gain a\nmore concrete understanding on the conditions for transition between the late\nstellar evolutionary phases.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 00:31:16 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kim","Hyosun",""],["Lee","Ho-Gyu",""],["Ohyama","Youichi",""],["Kim","Ji Hoon",""],["Scicluna","Peter",""],["Chu","You-Hua",""],["Mauron","Nicolas",""],["Ueta","Toshiya",""]]} +{"id":"2308.15680","submitter":"Motohiro Sobajima","authors":"Motohiro Sobajima","title":"Optimal decay for one-dimensional damped wave equations with potentials\n via a variant of Nash inequality","comments":"21 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.AP","license":"http://creativecommons.org/publicdomain/zero/1.0/","abstract":" The optimality of decay properties of the one-dimensional damped wave\nequations with potentials belonging to a certain class is discussed. The\ntypical ingredient is a variant of Nash inequality which involves an invariant\nmeasure for the corresponding Schr\\\"odinger semigroup. This enables us to find\na sharp decay estimate from above. Moreover, the use of a test function method\nwith the Nash-type inequality provides the decay estimate from below. The\ndiffusion phenomena for the damped wave equations with potentials are also\nconsidered.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 00:34:50 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Sobajima","Motohiro",""]]} +{"id":"2308.15681","submitter":"Art Owen","authors":"Ruggero Bellio, Swarnadip Ghosh, Art B. Owen, Cristiano Varin","title":"Scalable Estimation of Probit Models with Crossed Random Effects","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"stat.ME stat.CO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Crossed random effects structures arise in many scientific contexts. They\nraise severe computational problems with likelihood and Bayesian computations\nscaling like $N^{3/2}$ or worse for $N$ data points. In this paper we develop a\ncomposite likelihood approach for crossed random effects probit models. For\ndata arranged in rows and columns, one likelihood uses marginal distributions\nof the responses as if they were independent, another uses a hierarchical model\ncapturing all within row dependence as if the rows were independent and the\nthird model reverses the roles of rows and columns. We find that this method\nhas a cost that grows as $\\mathrm{O}(N)$ in crossed random effects settings\nwhere using the Laplace approximation has cost that grows superlinearly. We\nshow how to get consistent estimates of the probit slope and variance\ncomponents by maximizing those three likelihoods. The algorithm scales readily\nto a data set of five million observations from Stitch Fix.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 00:40:32 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Bellio","Ruggero",""],["Ghosh","Swarnadip",""],["Owen","Art B.",""],["Varin","Cristiano",""]]} +{"id":"2308.15682","submitter":"Ramin G. Daghigh","authors":"Ramin G. Daghigh and Gabor Kunstatter","title":"The effect of dark matter spikes on galactic black hole ringdown\n waveforms and shadows","comments":"18 pages, 7 figures, regular article","journal-ref":null,"doi":null,"report-no":null,"categories":"gr-qc","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We investigate the effect of dark matter spikes on the ringdown waveforms and\nshadows of the supermassive black holes at the core of the Milky Way and M87.\nThe dominant effect comes in the form of a redshift factor due to the mass of\nthe spike and is significant for large supermassive black holes such as M87*.\nThe subdominant contributions, recently calculated in {\\it ApJ} {\\bf 940} 33\n(2022), give information about the distribution of matter in the spike. We show\nthat these subdominant contributions are small as compared to the redshift\nfactor and likely difficult to detect except perhaps for very large black\nholes. We also show that the effect of a dark matter spike, with density near\nthe observational upper bounds, on the shadow radius of M87* is only an order\nof magnitude smaller than is currently accessible with Event Horizon Telescope\ndata.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 00:43:44 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Daghigh","Ramin G.",""],["Kunstatter","Gabor",""]]} +{"id":"2308.15683","submitter":"Tyler Chen","authors":"Tyler Chen","title":"A spectrum adaptive kernel polynomial method","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.comp-ph cs.NA math.NA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The kernel polynomial method (KPM) is a powerful numerical method for\napproximating spectral densities. Typical implementations of the KPM require an\na prior estimate for an interval containing the support of the target spectral\ndensity, and while such estimates can be obtained by classical techniques, this\nincurs addition computational costs. We propose an spectrum adaptive KPM based\non the Lanczos algorithm without reorthogonalization which allows the selection\nof KPM parameters to be deferred to after the expensive computation is\nfinished. Theoretical results from numerical analysis are given to justify the\nsuitability of the Lanczos algorithm for our approach, even in finite precision\narithmetic. While conceptually simple, the paradigm of decoupling computation\nfrom approximation has a number of practical and pedagogical benefits which we\nhighlight with numerical examples.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 00:52:33 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Chen","Tyler",""]]} +{"id":"2308.15684","submitter":"Kanata Suzuki","authors":"Kazuki Hori, Kanata Suzuki, Tetsuya Ogata","title":"Interactively Robot Action Planning with Uncertainty Analysis and Active\n Questioning by Large Language Model","comments":"7 pages, 6 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.RO cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The application of the Large Language Model (LLM) to robot action planning\nhas been actively studied. The instructions given to the LLM by natural\nlanguage may include ambiguity and lack of information depending on the task\ncontext. It is possible to adjust the output of LLM by making the instruction\ninput more detailed; however, the design cost is high. In this paper, we\npropose the interactive robot action planning method that allows the LLM to\nanalyze and gather missing information by asking questions to humans. The\nmethod can minimize the design cost of generating precise robot instructions.\nWe demonstrated the effectiveness of our method through concrete examples in\ncooking tasks. However, our experiments also revealed challenges in robot\naction planning with LLM, such as asking unimportant questions and assuming\ncrucial information without asking. Shedding light on these issues provides\nvaluable insights for future research on utilizing LLM for robotics.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 00:54:44 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Hori","Kazuki",""],["Suzuki","Kanata",""],["Ogata","Tetsuya",""]]} +{"id":"2308.15685","submitter":"Jeyson T\\'amara-Isaza","authors":"Jeyson T\\'amara-Isaza, Pablo Burset and William J. Herrera","title":"Microscopic Green's function approach for generalized Dirac Hamiltonians","comments":"17 pages, 15 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mes-hall cond-mat.mtrl-sci","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The rising interest in Dirac materials, condensed matter systems where\nlow-energy electronic excitations are described by the relativistic Dirac\nHamiltonian, entails a need for microscopic effective models to analytically\ndescribe their transport properties. Specifically, for the study of quantum\ntransport, these effective models must take into account the effect of\natomic-scale interfaces and the presence of well-defined edges while\nreproducing the correct band structure. We develop a general method to\nanalytically compute the microscopic Green's function of Dirac materials valid\nfor infinite, semi-infinite, and finite two-dimensional layers with zigzag or\narmchair edge orientations. We test our method by computing the density of\nstates and scattering probabilities of germanene and some transition metal\ndichalcogenides, obtaining simple analytical formulas. Our results provide a\nuseful analytical tool for the interpretation of transport experiments on Dirac\nmaterials and could be extended to describe additional degrees of freedom like\nextra layers, superconductivity, etc.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 00:59:46 GMT"}],"update_date":"2023-08-31","authors_parsed":[["T\u00e1mara-Isaza","Jeyson",""],["Burset","Pablo",""],["Herrera","William J.",""]]} +{"id":"2308.15686","submitter":"Jhon W. Gonz\\'alez","authors":"J. W. Gonz\\'alez, E. Fl\\'orez, J. D. Correa","title":"MoS$_2$ 2D-polymorphs as a Li-/Na-ion batteries: 1T' vs 2H phases","comments":"23 pages 6 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mtrl-sci cond-mat.mes-hall","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" In this study, we compare the performance of two phases of MoS$_2$\nmonolayers: 1T' and 2H, about their ability to adsorb lithium and sodium ions.\nEmploying the density functional theory and molecular dynamics, we include the\nion concentration to analyze the electronic structure, ion kinetics, and\nbattery performance. The pristine 2H-MoS$_2$ monolayer is the ground state.\nHowever, the charge transfer effects above a critical ion concentration yields\na stability change, where the 1T'-MoS$_2$ monolayer with adsorbed ions becomes\nmore stable thanthe 2H counterpart. The diffusion of ions onto the 1T'\nmonolayer is anisotropic, being more efficient at ion adsorption than the 2H\nphase. Finally, we calculate the open circuit voltage and specific capacity,\nconfirming that the 1T'-MoS$_2$ phase has great potential for developing\nlithium/sodium ion batteries.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 01:03:15 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Gonz\u00e1lez","J. W.",""],["Fl\u00f3rez","E.",""],["Correa","J. D.",""]]} +{"id":"2308.15687","submitter":"Dongxiang Shen","authors":"Dong-Xiang Shen, Gang Li, Iskandar Abdusamatjan, Jian-Ning Fu,\n Chun-Hua Zhu, Jin-Long Yu, Yu Zhang, Guo-Liang Lv, Nan-Nan Zhai, and\n Jin-Zhong Liu","title":"Variability of magnetic hot stars from the TESS observations","comments":"46 pages, 25 figures, Accepted by ApJ","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.SR","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" Magnetic hot stars refer to the stars, which effective temperatures\napproximately in the range from 7,000 to 50,000 K, and with large-scale\nglobally organized magnetic fields. These magnetic fields exhibit strengths\nranging from tens of Gauss to tens of kilo-Gauss. They are key in understanding\nthe effects caused by magnetic fields in the stellar evolution. However, there\nare only three magnetic hot stars studied via a combination of\nspectropolarimetric and asteroseismic modeling. Combined with\n$Transiting\\;Exoplanet\\;Survey\\;Satellite\\;(TESS)$ 1-56 sectors data sets, we\nprovided a photometric variability and stochastic low frequency (SLF)\nvariability study of 118 magnetic hot stars. 9 new rotating variable stars are\nidentified. Using the Bayesian Markov Chain Monte Carlo (MCMC) framework, we\nfitted the morphologies of SLF variability for magnetic hot stars. Our analysis\nreveals that the magnetic hot stars in our sample have $\\gamma < 5.5$ with the\nvast majority having $1 \\leq \\gamma \\leq 3$. The $\\nu_{\\rm char}$ is primarily\nin the ranges of $0\\;\\text{d}^{-1} < \\nu_{\\rm char} < 6.3\\;\\text{d}^{-1}$. The\namplitude of SLF variability, log$\\alpha_{\\rm 0}$, shows a dominant\ndistribution ranging from 0.8 to 3. No significant correlations are observed\nbetween the luminosity and fitting parameters, suggesting no clear dependence\nof SLF variability on stellar mass for our sample of magnetic hot stars with\nmasses between approximately $1.5 M_{\\odot}< M < 20 M_{\\odot}$. We found a\nsignificant negative correlation between the $B_{\\rm p}$ and $\\nu_{char}$. This\nsuppression effect of magnetic fields on $\\nu_{\\rm char}$ may be a result of\ntheir inhibition of macroturbulence.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 01:03:26 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Shen","Dong-Xiang",""],["Li","Gang",""],["Abdusamatjan","Iskandar",""],["Fu","Jian-Ning",""],["Zhu","Chun-Hua",""],["Yu","Jin-Long",""],["Zhang","Yu",""],["Lv","Guo-Liang",""],["Zhai","Nan-Nan",""],["Liu","Jin-Zhong",""]]} +{"id":"2308.15688","submitter":"Jialuo Liu","authors":"Jialuo Liu and Dong Xi","title":"Covariate adjustment and estimation of difference in proportions in\n randomized clinical trials","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"stat.ME","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Difference in proportions is frequently used to measure treatment effect for\nbinary outcomes in randomized clinical trials. The estimation of difference in\nproportions can be assisted by adjusting for prognostic baseline covariates to\nenhance precision and bolster statistical power. Standardization or\nG-computation is a widely used method for covariate adjustment in estimating\nunconditional difference in proportions, because of its robustness to model\nmisspecification. Various inference methods have been proposed to quantify the\nuncertainty and confidence intervals based on large-sample theories. However,\ntheir performances under small sample sizes and model misspecification have not\nbeen comprehensively evaluated. We propose an alternative approach to estimate\nthe unconditional variance of the standardization estimator based on the robust\nsandwich estimator to further enhance the finite sample performance. Extensive\nsimulations are provided to demonstrate the performances of the proposed\nmethod, spanning a wide range of sample sizes, randomization ratios, and model\nmisspecification. We apply the proposed method in a real data example to\nillustrate the practical utility.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 01:09:49 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Liu","Jialuo",""],["Xi","Dong",""]]} +{"id":"2308.15689","submitter":"Zhong-Wen Feng","authors":"Zhong-Wen Feng, Yi Ling, Xiao-Ning Wu","title":"New black-to-white hole solutions by surgery","comments":"28 pages, 8 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"gr-qc","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We construct new black-to-white hole solutions by surgery which connects the\ngeometry of space time at some cut-off inside the horizon. The continuity of\nthe metric can be guaranteed up to the arbitrary order which is controlled by\nthe power factor $n$. This sort of black-to-white holes is characterized by the\nsub-Planckian scalar curvature, independent of the mass of black-to-white\nholes. More importantly, we show that the energy condition is only violated\nwithin a small region near the cut-off. The geodesics of particles within the\nregion from black hole to white hole is also analyzed. It turns out that the\nmatter falling into the black hole may pass through the center without\nsingularity and come out from the white hole. This scenario provides novel\nideas for understanding the information loss paradox in traditional black hole\nphysics.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 01:11:55 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Feng","Zhong-Wen",""],["Ling","Yi",""],["Wu","Xiao-Ning",""]]} +{"id":"2308.15690","submitter":"Byunghyun Ban","authors":"Byunghyun Ban, Donghun Ryu, Su-won Hwang","title":"CongNaMul: A Dataset for Advanced Image Processing of Soybean Sprouts","comments":"Accepted to International Conference on ICT Convergence 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV cs.AI cs.LG eess.IV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We present 'CongNaMul', a comprehensive dataset designed for various tasks in\nsoybean sprouts image analysis. The CongNaMul dataset is curated to facilitate\ntasks such as image classification, semantic segmentation, decomposition, and\nmeasurement of length and weight. The classification task provides four classes\nto determine the quality of soybean sprouts: normal, broken, spotted, and\nbroken and spotted, for the development of AI-aided automatic quality\ninspection technology. For semantic segmentation, images with varying\ncomplexity, from single sprout images to images with multiple sprouts, along\nwith human-labelled mask images, are included. The label has 4 different\nclasses: background, head, body, tail. The dataset also provides images and\nmasks for the image decomposition task, including two separate sprout images\nand their combined form. Lastly, 5 physical features of sprouts (head length,\nbody length, body thickness, tail length, weight) are provided for image-based\nmeasurement tasks. This dataset is expected to be a valuable resource for a\nwide range of research and applications in the advanced analysis of images of\nsoybean sprouts. Also, we hope that this dataset can assist researchers\nstudying classification, semantic segmentation, decomposition, and physical\nfeature measurement in other industrial fields, in evaluating their models. The\ndataset is available at the authors' repository. (https://bhban.kr/data)\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 01:14:32 GMT"},{"version":"v2","created":"Thu, 31 Aug 2023 02:21:20 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Ban","Byunghyun",""],["Ryu","Donghun",""],["Hwang","Su-won",""]]} +{"id":"2308.15691","submitter":"Arjun Raghavan","authors":"Arjun Raghavan, Marisa Romanelli, Julian May-Mann, Anuva Aishwarya,\n Leena Aggarwal, Anisha G. Singh, Maja D. Bachmann, Leslie M. Schoop, Eduardo\n Fradkin, Ian R. Fisher, and Vidya Madhavan","title":"Atomic-Scale Visualization of a Cascade of Magnetic Orders in the\n Layered Antiferromagnet $GdTe_{3}$","comments":"35 pgs.; 4 main figures, 11 supplementary figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.str-el","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" $GdTe_{3}$ is a layered antiferromagnet belonging to the family of rare-earth\nsquare net tritellurides which has recently attracted much attention due to its\nexceptionally high mobility, the presence of a novel unidirectional\nincommensurate charge density wave (CDW) state, superconductivity under\npressure, and a cascade of magnetic transitions between 12 and 7 K, whose order\nparameters are as yet unknown. Since the itinerant electrons and localized\nmoments reside on different crystalline planes in this family of compounds,\nspin-charge interactions could potentially result in unexpected phases in this\nsystem. In this work, we use spin-polarized scanning tunneling microscopy to\ndirectly image the charge and magnetic orders in $GdTe_{3}$. Below 7 K, we find\na striped antiferromagnetic phase with twice the periodicity of the Gd lattice\nand perpendicular to the CDW order. Intriguingly, between 7 and 12 K, we\ndiscover a spin density wave which has the same periodicity as the CDW. Using a\nminimal Landau free energy model we show that the spin density wave can arise\nfrom a bulk incipient antiferromagnetic order oriented along the\n$\\textit{c}$-axis that couples to the CDW order. Our work reveals the order\nparameters of the cascade of low temperature magnetic phases in $GdTe_{3}$ and\nshows how the interplay between the charge and spin sectors can generate\nmultiple coexisting magnetic orders in this class of materials.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 01:15:39 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Raghavan","Arjun",""],["Romanelli","Marisa",""],["May-Mann","Julian",""],["Aishwarya","Anuva",""],["Aggarwal","Leena",""],["Singh","Anisha G.",""],["Bachmann","Maja D.",""],["Schoop","Leslie M.",""],["Fradkin","Eduardo",""],["Fisher","Ian R.",""],["Madhavan","Vidya",""]]} +{"id":"2308.15692","submitter":"Takami Sato","authors":"Takami Sato, Justin Yue, Nanze Chen, Ningfei Wang, Qi Alfred Chen","title":"Intriguing Properties of Diffusion Models: A Large-Scale Dataset for\n Evaluating Natural Attack Capability in Text-to-Image Generative Models","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV cs.CR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Denoising probabilistic diffusion models have shown breakthrough performance\nthat can generate more photo-realistic images or human-level illustrations than\nthe prior models such as GANs. This high image-generation capability has\nstimulated the creation of many downstream applications in various areas.\nHowever, we find that this technology is indeed a double-edged sword: We\nidentify a new type of attack, called the Natural Denoising Diffusion (NDD)\nattack based on the finding that state-of-the-art deep neural network (DNN)\nmodels still hold their prediction even if we intentionally remove their robust\nfeatures, which are essential to the human visual system (HVS), by text\nprompts. The NDD attack can generate low-cost, model-agnostic, and\ntransferrable adversarial attacks by exploiting the natural attack capability\nin diffusion models. Motivated by the finding, we construct a large-scale\ndataset, Natural Denoising Diffusion Attack (NDDA) dataset, to systematically\nevaluate the risk of the natural attack capability of diffusion models with\nstate-of-the-art text-to-image diffusion models. We evaluate the natural attack\ncapability by answering 6 research questions. Through a user study to confirm\nthe validity of the NDD attack, we find that the NDD attack can achieve an 88%\ndetection rate while being stealthy to 93% of human subjects. We also find that\nthe non-robust features embedded by diffusion models contribute to the natural\nattack capability. To confirm the model-agnostic and transferrable attack\ncapability, we perform the NDD attack against an AD vehicle and find that 73%\nof the physically printed attacks can be detected as a stop sign. We hope that\nour study and dataset can help our community to be aware of the risk of\ndiffusion models and facilitate further research toward robust DNN models.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 01:21:11 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Sato","Takami",""],["Yue","Justin",""],["Chen","Nanze",""],["Wang","Ningfei",""],["Chen","Qi Alfred",""]]} +{"id":"2308.15693","submitter":"Johannes Eser","authors":"Johannes Eser and Angela V. Olinto and Lawrence Wiencke (for the\n JEM-EUSO Collaboration)","title":"Overview and First Results of EUSO-SPB2","comments":"Proceeding 38th ICRC 2023 Nagoya, Japan","journal-ref":null,"doi":"10.22323/1.444.0397","report-no":null,"categories":"astro-ph.HE astro-ph.IM","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Observing ultra-high energy cosmic rays (UHECR) and very high energy (VHE)\nneutrinos from space is a promising way to measure their extremely low fluxes\nby significantly increasing the observed volume. The Extreme Universe Space\nObservatory on a Super Pressure Balloon 2 (EUSO-SPB2), the next, most advanced\npathfinder for such a mission, was launched May 13th 2023 from Wanaka New\nZealand. The pioneering EUSO-SPB2 payload flew a Fluorescence Telescope (FT)\nwith a PMT camera pointed in nadir to record fluorescence light from cosmic ray\nextensive air shower (EAS) with energies above 1 EeV, and a Cherenkov telescope\n(CT) with a silicon photomultiplier focal surface for observing Cherenkov\nemission of cosmic ray EAS with energies above 1 PeV with an above-the-limb\ngeometry and of PeV-scale EAS initiated by neutrino-sourced tau decay. As the\nCT is a novel instrument, optical background measurements for space neutrino\nobservation are an important goal of the mission. Any data collected during the\nmission will influence and improve the development of a space-based\nmulti-messenger observatory such as the Probe of Extreme Multi-Messenger\nAstrophysics (POEMMA). We present an overview of the EUSO-SPB2 mission and its\nscience goals and summarize results as available, from the 2023 flight.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 01:21:49 GMT"},{"version":"v2","created":"Thu, 31 Aug 2023 03:23:51 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Eser","Johannes","","for the\n JEM-EUSO Collaboration"],["Olinto","Angela V.","","for the\n JEM-EUSO Collaboration"],["Wiencke","Lawrence","","for the\n JEM-EUSO Collaboration"]]} +{"id":"2308.15694","submitter":"Jin-Xin Zhou","authors":"Jiangmin Pan, Fu-Gang Yin, Jin-Xin Zhou","title":"Quasiprimitive groups with a biregular dihedral subgroup,and\n arc-transitive bidihedrants","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.GR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" A semiregular permutation group on a set $\\Ome$ is called {\\em bi-regular} if\nit has two orbits. A classification is given of quasiprimitive permutation\ngroups with a biregular dihedral subgroup. This is then used to characterize\nthe family of arc-transitive graphs whose automorphism groups containing a\nbi-regular dihedral subgroup. We first show that every such graph is a normal\n$r$-cover of an arc-transitive graph whose automorphism group is either\nquasiprimitive or bi-quasiprimitive on its vertices, and then classify all such\nquasiprimitive or bi-quasiprimitive arc-transitive graphs.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 01:24:24 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Pan","Jiangmin",""],["Yin","Fu-Gang",""],["Zhou","Jin-Xin",""]]} +{"id":"2308.15695","submitter":"Kevin Cong","authors":"Kevin Cong","title":"On Integer Sets Excluding Permutation Pattern Waves","comments":"14 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We study Ramsey-type problems on sets avoiding sequences whose consecutive\ndifferences have a fixed relative order. For a given permutation $\\pi \\in S_k$,\na $\\pi$-wave is a sequence $x_1 < \\cdots < x_{k+1}$ such that $x_{i+1} - x_i >\nx_{j+1} - x_j$ if and only if $\\pi(i) > \\pi(j)$. A subset of $[n] =\n\\{1,\\ldots,n\\}$ is $\\pi$-wave-free if it does not contain any $\\pi$-wave. Our\nfirst main result shows that the size of the largest $\\pi$-wave-free subset of\n$[n]$ is $O\\left((\\log n)^{k-1}\\right)$. We then classify all permutations for\nwhich this bound is tight. In the cases where it is not tight, we prove\nstronger polylogarithmic upper bounds. We then apply these bounds to a closely\nrelated coloring problem studied by Landman and Robertson.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 01:33:02 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Cong","Kevin",""]]} +{"id":"2308.15696","submitter":"Dongyang Xu","authors":"Yingying Hu, Dongyang Xu, Tiantian Zhang","title":"Implementation and Evaluation of Physical Layer Key Generation on SDR\n based LoRa Platform","comments":"Submitted to IEEE VTC2023 Fall","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Physical layer key generation technology which leverages channel randomness\nto generate secret keys has attracted extensive attentions in long range\n(LoRa)-based networks recently. We in this paper develop a software-defined\nradio (SDR) based LoRa communications platform using GNU Radio on universal\nsoftware radio peripheral (USRP) to implement and evaluate typical physical\nlayer key generation schemes. Thanks to the flexibility and configurability of\nGNU Radio to extract LoRa packets, we are able to obtain the fine-grained\nchannel frequency response (CFR) through LoRa preamble based channel estimation\nfor key generation. Besides, we propose a lowcomplexity preprocessing method to\nenhance the randomness of quantization while reducing the secret key\ndisagreement ratio. The results indicate that we can achieve 367 key bits with\na high level of randomness through just a single effective channel probing in\nan indoor environment at a distance of 2 meters under the circumstance of a\nspreading factor (SF) of 7, a preamble length of 8, a signal bandwidth of 250\nkHz, and a sampling rate of 1 MHz.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 01:38:26 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Hu","Yingying",""],["Xu","Dongyang",""],["Zhang","Tiantian",""]]} +{"id":"2308.15697","submitter":"Quan Nguyen","authors":"Quan Nguyen, Emma Lejeune","title":"Segmenting mechanically heterogeneous domains via unsupervised learning","comments":"26 pages, 10 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG physics.data-an q-bio.TO","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" From biological organs to soft robotics, highly deformable materials are\nessential components of natural and engineered systems. These highly deformable\nmaterials can have heterogeneous material properties, and can experience\nheterogeneous deformations with or without underlying material heterogeneity.\nMany recent works have established that computational modeling approaches are\nwell suited for understanding and predicting the consequences of material\nheterogeneity and for interpreting observed heterogeneous strain fields. In\nparticular, there has been significant work towards developing inverse analysis\napproaches that can convert observed kinematic quantities (e.g., displacement,\nstrain) to material properties and mechanical state. Despite the success of\nthese approaches, they are not necessarily generalizable and often rely on\ntight control and knowledge of boundary conditions. Here, we will build on the\nrecent advances (and ubiquity) of machine learning approaches to explore\nalternative approaches to detect patterns in heterogeneous material properties\nand mechanical behavior. Specifically, we will explore unsupervised learning\napproaches to clustering and ensemble clutering to identify heterogeneous\nregions. Overall, we find that these approaches are effective, yet limited in\ntheir abilities. Through this initial exploration (where all data and code is\npublished alongside this manuscript), we set the stage for future studies that\nmore specifically adapt these methods to mechanical data.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 01:40:38 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Nguyen","Quan",""],["Lejeune","Emma",""]]} +{"id":"2308.15698","submitter":"Zuodong Zhang","authors":"Zuodong Zhang, Renjie Wei, Meng Li, Yibo Lin, Runsheng Wang, Ru Huang","title":"READ: Reliability-Enhanced Accelerator Dataflow Optimization using\n Critical Input Pattern Reduction","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" With the rapid advancements of deep learning in recent years, hardware\naccelerators are continuously deployed in more and more safety-critical\napplications such as autonomous driving and robotics. While the accelerators\nare usually fabricated with advanced technology nodes for high performance and\nenergy efficiency, they are also more prone to timing errors under process,\nvoltage, temperature, and aging (PVTA) variations. By revisiting the physical\nsources of timing errors, we show that most of the timing errors in the\naccelerator are caused by a specific subset of input patterns, defined as\ncritical input patterns. To improve the timing error resilience of the\naccelerator, in this paper, we propose READ, a reliability-enhanced accelerator\ndataflow optimization technique that can effectively reduce timing errors. READ\nreduces the occurrence of critical input patterns by exploring the optimal\ncomputing sequence when mapping a trained deep neural network to accelerators.\nREAD only changes the order of multiply-accumulate operations in a convolution,\nwhich introduces negligible hardware overhead and no impact on accuracy. The\nexperimental results on VGG and ResNet demonstrate on average 7.8X timing error\nrate (TER) reduction and up to 37.9X TER reduction for certain layers. The\nresults also show that READ enables the accelerator to maintain accuracy over a\nwide range of PVTA variations, making it a promising approach for robust\ndeep-learning design\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 01:43:32 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Zhang","Zuodong",""],["Wei","Renjie",""],["Li","Meng",""],["Lin","Yibo",""],["Wang","Runsheng",""],["Huang","Ru",""]]} +{"id":"2308.15699","submitter":"Fujio Toriumi","authors":"Tomoki Fukuma, Koki Noda, Yuta Yamamoto, Takaya Hoshi, Yoshiharu\n Ichikawa, Kyosuke Kambe, Yu Masubuchi, Fujio Toriumi","title":"Investigating Quantitative-Qualitative Topical Preference: A Comparative\n Study of Early and Late Engagers in Japanese ChatGPT Conversations","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This study investigates engagement patterns related to OpenAI's ChatGPT on\nJapanese Twitter, focusing on two distinct user groups - early and late\nengagers, inspired by the Innovation Theory. Early engagers are defined as\nindividuals who initiated conversations about ChatGPT during its early stages,\nwhereas late engagers are those who began participating at a later date. To\nexamine the nature of the conversations, we employ a dual methodology,\nencompassing both quantitative and qualitative analyses. The quantitative\nanalysis reveals that early engagers often engage with more forward-looking and\nspeculative topics, emphasizing the technological advancements and potential\ntransformative impact of ChatGPT. Conversely, the late engagers intereact more\nwith contemporary topics, focusing on the optimization of existing AI\ncapabilities and considering their inherent limitations. Through our\nqualitative analysis, we propose a method to measure the proportion of shared\nor unique viewpoints within topics across both groups. We found that early\nengagers generally concentrate on a more limited range of perspectives, whereas\nlate engagers exhibit a wider range of viewpoints. Interestingly, a weak\ncorrelation was found between the volume of tweets and the diversity of\ndiscussed topics in both groups. These findings underscore the importance of\nidentifying semantic bias, rather than relying solely on the volume of tweets,\nfor understanding differences in communication styles between groups within a\ngiven topic. Moreover, our versatile dual methodology holds potential for\nbroader applications, such as studying engagement patterns within different\nuser groups, or in contexts beyond ChatGPT.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 01:51:36 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Fukuma","Tomoki",""],["Noda","Koki",""],["Yamamoto","Yuta",""],["Hoshi","Takaya",""],["Ichikawa","Yoshiharu",""],["Kambe","Kyosuke",""],["Masubuchi","Yu",""],["Toriumi","Fujio",""]]} +{"id":"2308.15700","submitter":"Anna Kawakami","authors":"Anna Kawakami, Luke Guerdan, Yanghuidi Cheng, Matthew Lee, Scott\n Carter, Nikos Arechiga, Kate Glazko, Haiyi Zhu, Kenneth Holstein","title":"Training Towards Critical Use: Learning to Situate AI Predictions\n Relative to Human Knowledge","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.HC cs.AI cs.LG","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" A growing body of research has explored how to support humans in making\nbetter use of AI-based decision support, including via training and onboarding.\nExisting research has focused on decision-making tasks where it is possible to\nevaluate \"appropriate reliance\" by comparing each decision against a ground\ntruth label that cleanly maps to both the AI's predictive target and the human\ndecision-maker's goals. However, this assumption does not hold in many\nreal-world settings where AI tools are deployed today (e.g., social work,\ncriminal justice, and healthcare). In this paper, we introduce a\nprocess-oriented notion of appropriate reliance called critical use that\ncenters the human's ability to situate AI predictions against knowledge that is\nuniquely available to them but unavailable to the AI model. To explore how\ntraining can support critical use, we conduct a randomized online experiment in\na complex social decision-making setting: child maltreatment screening. We find\nthat, by providing participants with accelerated, low-stakes opportunities to\npractice AI-assisted decision-making in this setting, novices came to exhibit\npatterns of disagreement with AI that resemble those of experienced workers. A\nqualitative examination of participants' explanations for their AI-assisted\ndecisions revealed that they drew upon qualitative case narratives, to which\nthe AI model did not have access, to learn when (not) to rely on AI\npredictions. Our findings open new questions for the study and design of\ntraining for real-world AI-assisted decision-making.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 01:54:31 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kawakami","Anna",""],["Guerdan","Luke",""],["Cheng","Yanghuidi",""],["Lee","Matthew",""],["Carter","Scott",""],["Arechiga","Nikos",""],["Glazko","Kate",""],["Zhu","Haiyi",""],["Holstein","Kenneth",""]]} +{"id":"2308.15701","submitter":"Xiaoqing Chen","authors":"Xiaoqing Chen, Zhitao Li, Weike Pan and Zhong Ming","title":"A Survey on Multi-Behavior Sequential Recommendation","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Recommender systems is set up to address the issue of information overload in\ntraditional information retrieval systems, which is focused on recommending\ninformation that is of most interest to users from massive information.\nGenerally, there is a sequential nature and heterogeneity to the behavior of a\nperson interacting with a system, leading to the proposal of multi-behavior\nsequential recommendation (MBSR). MBSR is a relatively new and worthy direction\nfor in-depth research, which can achieve state-of-the-art recommendation\nthrough suitable modeling, and some related works have been proposed. This\nsurvey aims to shed light on the MBSR problem. Firstly, we introduce MBSR in\ndetail, including its problem definition, application scenarios and challenges\nfaced. Secondly, we detail the classification of MBSR, including\nneighborhood-based methods, matrix factorization-based methods and deep\nlearning-based methods, where we further classify the deep learning-based\nmethods into different learning architectures based on RNN, GNN, Transformer,\nand generic architectures as well as architectures that integrate hybrid\ntechniques. In each method, we present related works based on the data\nperspective and the modeling perspective, as well as analyze the strengths,\nweaknesses and features of these works. Finally, we discuss some promising\nfuture research directions to address the challenges and improve the current\nstatus of MBSR.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 01:54:48 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Chen","Xiaoqing",""],["Li","Zhitao",""],["Pan","Weike",""],["Ming","Zhong",""]]} +{"id":"2308.15702","submitter":"Carlos Gabriel Valenzuela Ruiz","authors":"Carlos Gabriel Valenzuela Ruiz, Donald Stanley","title":"Double homology and wedge-decomposable simplicial complexes","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.AT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We show a wedge-decomposable simplicial complex has associated double\nhomology $\\mathbb{Z}\\oplus\\mathbb{Z}$ in bidegrees $(0,0)$, $(-1,4)$.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 01:55:18 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Ruiz","Carlos Gabriel Valenzuela",""],["Stanley","Donald",""]]} +{"id":"2308.15703","submitter":"Jun Li","authors":"Jun Li, Jingjian Wang, Hongwei Wang, Xing Deng, Jielong Chen, Bing\n Cao, Zekun Wang, Guanjie Xu, Ge Zhang, Feng Shi, Hualei Liu","title":"Fragment and Integrate Network (FIN): A Novel Spatial-Temporal Modeling\n Based on Long Sequential Behavior for Online Food Ordering Click-Through Rate\n Prediction","comments":"Accepted by CIKM 2023 Applied Research Paper","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IR cs.LG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Spatial-temporal information has been proven to be of great significance for\nclick-through rate prediction tasks in online Location-Based Services (LBS),\nespecially in mainstream food ordering platforms such as DoorDash, Uber Eats,\nMeituan, and Ele.me. Modeling user spatial-temporal preferences with sequential\nbehavior data has become a hot topic in recommendation systems and online\nadvertising. However, most of existing methods either lack the representation\nof rich spatial-temporal information or only handle user behaviors with limited\nlength, e.g. 100. In this paper, we tackle these problems by designing a new\nspatial-temporal modeling paradigm named Fragment and Integrate Network (FIN).\nFIN consists of two networks: (i) Fragment Network (FN) extracts Multiple\nSub-Sequences (MSS) from lifelong sequential behavior data, and captures the\nspecific spatial-temporal representation by modeling each MSS respectively.\nHere both a simplified attention and a complicated attention are adopted to\nbalance the performance gain and resource consumption. (ii) Integrate Network\n(IN) builds a new integrated sequence by utilizing spatial-temporal interaction\non MSS and captures the comprehensive spatial-temporal representation by\nmodeling the integrated sequence with a complicated attention. Both public\ndatasets and production datasets have demonstrated the accuracy and scalability\nof FIN. Since 2022, FIN has been fully deployed in the recommendation\nadvertising system of Ele.me, one of the most popular online food ordering\nplatforms in China, obtaining 5.7% improvement on Click-Through Rate (CTR) and\n7.3% increase on Revenue Per Mille (RPM).\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 01:56:57 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Li","Jun",""],["Wang","Jingjian",""],["Wang","Hongwei",""],["Deng","Xing",""],["Chen","Jielong",""],["Cao","Bing",""],["Wang","Zekun",""],["Xu","Guanjie",""],["Zhang","Ge",""],["Shi","Feng",""],["Liu","Hualei",""]]} +{"id":"2308.15704","submitter":"Kyungeun Lee","authors":"Kyungeun Lee, Jaeill Kim, Suhyun Kang, Wonjong Rhee","title":"Towards a Rigorous Analysis of Mutual Information in Contrastive\n Learning","comments":"18 pages, 7 figures, Under review","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AI cs.LG","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Contrastive learning has emerged as a cornerstone in recent achievements of\nunsupervised representation learning. Its primary paradigm involves an instance\ndiscrimination task with a mutual information loss. The loss is known as\nInfoNCE and it has yielded vital insights into contrastive learning through the\nlens of mutual information analysis. However, the estimation of mutual\ninformation can prove challenging, creating a gap between the elegance of its\nmathematical foundation and the complexity of its estimation. As a result,\ndrawing rigorous insights or conclusions from mutual information analysis\nbecomes intricate. In this study, we introduce three novel methods and a few\nrelated theorems, aimed at enhancing the rigor of mutual information analysis.\nDespite their simplicity, these methods can carry substantial utility.\nLeveraging these approaches, we reassess three instances of contrastive\nlearning analysis, illustrating their capacity to facilitate deeper\ncomprehension or to rectify pre-existing misconceptions. Specifically, we\ninvestigate small batch size, mutual information as a measure, and the InfoMin\nprinciple.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 01:59:42 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Lee","Kyungeun",""],["Kim","Jaeill",""],["Kang","Suhyun",""],["Rhee","Wonjong",""]]} +{"id":"2308.15705","submitter":"Ayush Garg","authors":"Ayush Garg, Julia Lu, and Anika Maji","title":"Towards Earlier Detection of Oral Diseases On Smartphones Using Oral and\n Dental RGB Images","comments":"10 pages, 6 figures, 1 formula. This research was conducted as a\n mentored project performed for a college course and research program at the\n University of California Santa Barbara's Summer Research Academies program","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Oral diseases such as periodontal (gum) diseases and dental caries (cavities)\naffect billions of people across the world today. However, previous\nstate-of-the-art models have relied on X-ray images to detect oral diseases,\nmaking them inaccessible to remote monitoring, developing countries, and\ntelemedicine. To combat this overuse of X-ray imagery, we propose a lightweight\nmachine learning model capable of detecting calculus (also known as hardened\nplaque or tartar) in RGB images while running efficiently on low-end devices.\nThe model, a modified MobileNetV3-Small neural network transfer learned from\nImageNet, achieved an accuracy of 72.73% (which is comparable to\nstate-of-the-art solutions) while still being able to run on mobile devices due\nto its reduced memory requirements and processing times. A ResNet34-based model\nwas also constructed and achieved an accuracy of 81.82%. Both of these models\nwere tested on a mobile app, demonstrating their potential to limit the number\nof serious oral disease cases as their predictions can help patients schedule\nappointments earlier without the need to go to the clinic.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:01:19 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Garg","Ayush",""],["Lu","Julia",""],["Maji","Anika",""]]} +{"id":"2308.15706","submitter":"Isabel Constantino","authors":"Isabel Constantino, Sadamori Kojaku, Santo Fortunato, Yong-Yeol Ahn","title":"Representing the Disciplinary Structure of Physics: A Comparative\n Evaluation of Graph and Text Embedding Methods","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SI physics.soc-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Recent advances in machine learning offer new ways to represent and study\nscholarly works and the space of knowledge. Graph and text embeddings provide a\nconvenient vector representation of scholarly works based on citations and\ntext. Yet, it is unclear whether their representations are consistent or\nprovide different views of the structure of science. Here, we compare graph and\ntext embedding by testing their ability to capture the hierarchical structure\nof the Physics and Astronomy Classification Scheme (PACS) of papers published\nby the American Physical Society (APS). We also provide a qualitative\ncomparison of the overall structure of the graph and text embeddings for\nreference. We find that neural network-based methods outperform traditional\nmethods and graph embedding methods such as node2vec are better than other\nmethods at capturing the PACS structure. Our results call for further\ninvestigations into how different contexts of scientific papers are captured by\ndifferent methods, and how we can combine and leverage such information in an\ninterpretable manner.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:08:52 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Constantino","Isabel",""],["Kojaku","Sadamori",""],["Fortunato","Santo",""],["Ahn","Yong-Yeol",""]]} +{"id":"2308.15707","submitter":"Yongyun Chen","authors":"Chen Yongyun, Gu Qiusheng, Fan Junhui, Yu Xiaoling, Ding Nan, Guo\n Xiaotong, Xiong Dingrong","title":"Jet power extracted from ADAFs and the application to Fermi BL Lacertae\n objects","comments":"15 pages, 6 figures, accept for publication in MNRAS","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.HE astro-ph.GA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We calculate the jet power of the Blandford-Znajek (BZ) model and the hybrid\nmodel based on the self-similar solution of advection-dominated accretion flows\n(ADAFs). We study the formation mechanism of the jets of BL Lacs with known\nredshifts detected by the Fermi satellite after 10 yr of data (4FGL-DR2). The\nkinetic power of the jets of Fermi BL Lacs is estimated through radio\nluminosity. The main results are as follows. (1) We find that the jet kinetic\npower of about 72\\% intermediate peak frequency BL Lacs (IBL) and 94\\%\nhigh-frequency peak BL Lacs (HBL) can be explained by the hybrid jet model\nbased on ADAFs surrounding Kerr black holes. However, the jet kinetic power of\nabout 74\\% LBL cannot be explained by the BZ jet model or the hybrid model. (2)\nThe LBL has a higher accretion rate than IBL and HBL. About 14\\% IBL and 62\\%\nHBL have pure optically thin ADAFs. However, 7\\% LBL may have a hybrid\nstructure consisting of an standard thin disk (SS) plus optically thin ADAFs.\n(3) After excluding the redshift dependence, there is a weak correlation\nbetween the jet kinetic power and the accretion disk luminosity for Fermi BL\nLacs. (4) There is a significant correlation between inverse Compton luminosity\nand synchrotron luminosity for Fermi BL Lacs. The slope of the relation between\ninverse Compton luminosity and synchrotron luminosity for Fermi BL Lacs is\nconsistent with the synchrotron self-Compton (SSC) process. The result may\nsuggest that the high-energy components of Fermi BL Lacs are dominated by the\nSSC process.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:09:33 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Yongyun","Chen",""],["Qiusheng","Gu",""],["Junhui","Fan",""],["Xiaoling","Yu",""],["Nan","Ding",""],["Xiaotong","Guo",""],["Dingrong","Xiong",""]]} +{"id":"2308.15708","submitter":"Bingquan Peng","authors":"Bingquan Peng, Jie jiang, Fangfang Dai, Liang Chen, and Lei Zhang","title":"2D Single Crystal of High-Temperature Phase Cuprous Iodide under Ambient\n Conditions","comments":"17 pages, 4 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mtrl-sci","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Two-dimensional (2D) materials, with their structural uniqueness, exceptional\nproperties, and wide-ranging applications, show unprecedented prospects in\nfundamental physics research and industrial applications. 2D \\b{eta}-phase\ncuprous iodide (\\b{eta}-CuI) is a promising candidate for overcoming the\nchallenges of insufficient P-type transparent conductive materials, with\nmultiple predicted unique properties. Previous experimental results show that\n\\b{eta}-CuI only occurs at elevated temperatures between 645 and 675 K. Many\nefforts are made to stabilize \\b{eta}-CuI at room temperature through\nsurface/interface engineering. However, the resulting composites limit the\nperformance and application of pure 2D \\b{eta}-CuI. Here, we demonstrate\nexperimentally that isolated 2D \\b{eta}-CuI single crystals can exist stably\nunder ambient conditions, a high-temperature phase CuI found at room\ntemperature. We validate the simultaneous existence of {\\gamma}-CuI and\n\\b{eta}-CuI in the synthesized CuI. The previous neglect of \\b{eta}-CuI\ncrystals can be ascribed to factors including their low content, small\ndimensions, and lack of ingenious experimental characterization. Moreover, the\ntheoretical calculation further confirms dynamically and thermally stable of\nthe monolayer \\b{eta}-CuI, which has an ultra-wide direct band-gap (3.66 eV).\nOur findings challenge the traditional understanding of \\b{eta}-CuI as a\nhigh-temperature phase of CuI, instead providing a new definition that 2D\n\\b{eta}-CuI exhibits remarkable stability under ambient conditions.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:09:42 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Peng","Bingquan",""],["jiang","Jie",""],["Dai","Fangfang",""],["Chen","Liang",""],["Zhang","Lei",""]]} +{"id":"2308.15709","submitter":"Jiachen T. Wang","authors":"Jiachen T. Wang, Yuqing Zhu, Yu-Xiang Wang, Ruoxi Jia, Prateek Mittal","title":"Threshold KNN-Shapley: A Linear-Time and Privacy-Friendly Approach to\n Data Valuation","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.CR cs.GT stat.ML","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Data valuation, a critical aspect of data-centric ML research, aims to\nquantify the usefulness of individual data sources in training machine learning\n(ML) models. However, data valuation faces significant yet frequently\noverlooked privacy challenges despite its importance. This paper studies these\nchallenges with a focus on KNN-Shapley, one of the most practical data\nvaluation methods nowadays. We first emphasize the inherent privacy risks of\nKNN-Shapley, and demonstrate the significant technical difficulties in adapting\nKNN-Shapley to accommodate differential privacy (DP). To overcome these\nchallenges, we introduce TKNN-Shapley, a refined variant of KNN-Shapley that is\nprivacy-friendly, allowing for straightforward modifications to incorporate DP\nguarantee (DP-TKNN-Shapley). We show that DP-TKNN-Shapley has several\nadvantages and offers a superior privacy-utility tradeoff compared to naively\nprivatized KNN-Shapley in discerning data quality. Moreover, even non-private\nTKNN-Shapley achieves comparable performance as KNN-Shapley. Overall, our\nfindings suggest that TKNN-Shapley is a promising alternative to KNN-Shapley,\nparticularly for real-world applications involving sensitive data.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:12:00 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Wang","Jiachen T.",""],["Zhu","Yuqing",""],["Wang","Yu-Xiang",""],["Jia","Ruoxi",""],["Mittal","Prateek",""]]} +{"id":"2308.15710","submitter":"Rafael Mosquera","authors":"Rafael Mosquera G\\'omez, Juli\\'an Eusse, Juan Ciro, Daniel Galvez,\n Ryan Hileman, Kurt Bollacker, David Kanter","title":"Speech Wikimedia: A 77 Language Multilingual Speech Dataset","comments":"Data-Centric Machine Learning Workshop at the International Machine\n Learning Conference 2023 (ICML)","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AI cs.LG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The Speech Wikimedia Dataset is a publicly available compilation of audio\nwith transcriptions extracted from Wikimedia Commons. It includes 1780 hours\n(195 GB) of CC-BY-SA licensed transcribed speech from a diverse set of\nscenarios and speakers, in 77 different languages. Each audio file has one or\nmore transcriptions in different languages, making this dataset suitable for\ntraining speech recognition, speech translation, and machine translation\nmodels.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:14:49 GMT"}],"update_date":"2023-08-31","authors_parsed":[["G\u00f3mez","Rafael Mosquera",""],["Eusse","Juli\u00e1n",""],["Ciro","Juan",""],["Galvez","Daniel",""],["Hileman","Ryan",""],["Bollacker","Kurt",""],["Kanter","David",""]]} +{"id":"2308.15711","submitter":"Hongjin Qian","authors":"Hongjin Qian, Zhicheng Dou, Jiejun Tan, Haonan Chen, Haoqi Gu, Ruofei\n Lai, Xinyu Zhang, Zhao Cao, Ji-Rong Wen","title":"Optimizing Factual Accuracy in Text Generation through Dynamic Knowledge\n Selection","comments":"15 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Language models (LMs) have revolutionized the way we interact with\ninformation, but they often generate nonfactual text, raising concerns about\ntheir reliability. Previous methods use external knowledge as references for\ntext generation to enhance factuality but often struggle with the knowledge\nmix-up(e.g., entity mismatch) of irrelevant references. Besides,as the length\nof the output text grows, the randomness of sampling can escalate,\ndetrimentally impacting the factual accuracy of the generated text. In this\npaper, we present DKGen, which divide the text generation process into an\niterative process. In each iteration, DKGen takes the input query, the\npreviously generated text and a subset of the reference passages as input to\ngenerate short text. During the process, the subset is dynamically selected\nfrom the full passage set based on their relevance to the previously generated\ntext and the query, largely eliminating the irrelevant references from input.\nTo further enhance DKGen's ability to correctly use these external knowledge,\nDKGen distills the relevance order of reference passages to the cross-attention\ndistribution of decoder. We train and evaluate DKGen on a large-scale benchmark\ndataset. Experiment results show that DKGen outperforms all baseline models.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:22:40 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Qian","Hongjin",""],["Dou","Zhicheng",""],["Tan","Jiejun",""],["Chen","Haonan",""],["Gu","Haoqi",""],["Lai","Ruofei",""],["Zhang","Xinyu",""],["Cao","Zhao",""],["Wen","Ji-Rong",""]]} +{"id":"2308.15712","submitter":"Chetraj Pandey","authors":"Chetraj Pandey, Anli Ji, Trisha Nandakumar, Rafal A. Angryk, Berkay\n Aydin","title":"Exploring Deep Learning for Full-disk Solar Flare Prediction with\n Empirical Insights from Guided Grad-CAM Explanations","comments":"This is a preprint accepted at the 10th IEEE International Conference\n On Data Science And Advanced Analytics (DSAA 2023). The conference\n proceedings will be published by the IEEE Xplore Digital Library with ISBN:\n 979-8-3503-4503-2. 10 pages, 6 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.SR astro-ph.IM cs.LG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" This study progresses solar flare prediction research by presenting a\nfull-disk deep-learning model to forecast $\\geq$M-class solar flares and\nevaluating its efficacy on both central (within $\\pm$70$^\\circ$) and near-limb\n(beyond $\\pm$70$^\\circ$) events, showcasing qualitative assessment of post hoc\nexplanations for the model's predictions, and providing empirical findings from\nhuman-centered quantitative assessments of these explanations. Our model is\ntrained using hourly full-disk line-of-sight magnetogram images to predict\n$\\geq$M-class solar flares within the subsequent 24-hour prediction window.\nAdditionally, we apply the Guided Gradient-weighted Class Activation Mapping\n(Guided Grad-CAM) attribution method to interpret our model's predictions and\nevaluate the explanations. Our analysis unveils that full-disk solar flare\npredictions correspond with active region characteristics. The following points\nrepresent the most important findings of our study: (1) Our deep learning\nmodels achieved an average true skill statistic (TSS) of $\\sim$0.51 and a\nHeidke skill score (HSS) of $\\sim$0.38, exhibiting skill to predict solar\nflares where for central locations the average recall is $\\sim$0.75 (recall\nvalues for X- and M-class are 0.95 and 0.73 respectively) and for the near-limb\nflares the average recall is $\\sim$0.52 (recall values for X- and M-class are\n0.74 and 0.50 respectively); (2) qualitative examination of the model's\nexplanations reveals that it discerns and leverages features linked to active\nregions in both central and near-limb locations within full-disk magnetograms\nto produce respective predictions. In essence, our models grasp the shape and\ntexture-based properties of flaring active regions, even in proximity to limb\nareas -- a novel and essential capability with considerable significance for\noperational forecasting systems.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:24:09 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Pandey","Chetraj",""],["Ji","Anli",""],["Nandakumar","Trisha",""],["Angryk","Rafal A.",""],["Aydin","Berkay",""]]} +{"id":"2308.15713","submitter":"Toshiki Kinoshita","authors":"T. Kinoshita, K. Tanaka, H. Sakai, R. Yanai, M. Nunami, C. A. Michael","title":"Absolute value measurement of ion-scale turbulence by two-dimensional\n phase contrast imaging in Large Helical Device","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.plasm-ph physics.app-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Absolute value measurements of turbulence amplitude in magnetically confined\nhigh-temperature plasmas can effectively explain turbulence-driven transport\ncharacteristics and their role in plasma confinements. Two-dimensional phase\ncontrast imaging (2D-PCI) is a promising technique used to evaluate the\ntemporal evolution of the radial profile of ion-scale turbulence. However,\nabsolute value measurement of turbulence amplitude has not been conducted owing\nto the nonlinearity of the detector. In this study, the absolute measurement\nmethod proposed in the previous study is applied to turbulence measurement\nresults from the large helical device. As a result, the localized turbulence\namplitude at $n_e=1.5\\times 10^{19}$m$^{-3}$ is approximately $3.5\\times\n10^{15}$m$^{-3}$, which is 0.02\\% of the electron density. In addition, the\nevaluated poloidal wavenumber spectrum is almost consistent, within a certain\nerror range, the spectrum being calculated using a nonlinear gyrokinetic\nsimulation. This study is the first to the best of our knowledge to\nquantitatively evaluate turbulence amplitudes measured by 2D-PCI and compare\nwith simulations.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:24:45 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kinoshita","T.",""],["Tanaka","K.",""],["Sakai","H.",""],["Yanai","R.",""],["Nunami","M.",""],["Michael","C. A.",""]]} +{"id":"2308.15714","submitter":"Ishan Bansal","authors":"Ishan Bansal","title":"A constant factor approximation for the (p,3)-flexible graph\n connectivity problem","comments":"First draft. Will improve readability and exposition","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DS","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" In this article we provide a constant factor approximation for the\n$(p,3)$-flexible graph connectivity problem, improving on the previous best\nknown $O(p)$-approximation.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:31:33 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Bansal","Ishan",""]]} +{"id":"2308.15715","submitter":"Kalyana Babu Nakshatrala","authors":"K. B. Nakshatrala","title":"Dynamic properties of double porosity/permeability model","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.NA cs.NA math-ph math.AP math.MP physics.flu-dyn","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Understanding fluid movement in multi-pored materials is vital for energy\nsecurity and physiology. For instance, shale (a geological material) and bone\n(a biological material) exhibit multiple pore networks. Double\nporosity/permeability models provide a mechanics-based approach to describe\nhydrodynamics in aforesaid porous materials. However, current theoretical\nresults primarily address state-state response, and their counterparts in the\ntransient regime are still wanting. The primary aim of this paper is to fill\nthis knowledge gap. We present three principal properties -- with rigorous\nmathematical arguments -- that the solutions under the double\nporosity/permeability model satisfy in the transient regime: backward-in-time\nuniqueness, reciprocity, and a variational principle. We employ the ``energy\nmethod\" -- by exploiting the physical total kinetic energy of the flowing fluid\n-- to establish the first property and Cauchy-Riemann convolutions to prove the\nnext two. The results reported in this paper -- that qualitatively describe the\ndynamics of fluid flow in double-pored media -- have (a) theoretical\nsignificance, (b) practical applications, and (c) considerable pedagogical\nvalue. In particular, these results will benefit practitioners and\ncomputational scientists in checking the accuracy of numerical simulators. The\nbackward-in-time uniqueness lays a firm theoretical foundation for pursuing\ninverse problems in which one predicts the prescribed initial conditions based\non data available about the solution at a later instance.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:32:29 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Nakshatrala","K. B.",""]]} +{"id":"2308.15716","submitter":"Huan Huang Mr.","authors":"Huan Huang, Lipeng Dai, Hongliang Zhang, Zhongxing Tian, Yi Cai,\n Chongfu Zhang, A. Lee Swindlehurst, and Zhu Han","title":"Anti-Jamming Precoding Against Disco Intelligent Reflecting Surfaces\n Based Fully-Passive Jamming Attacks","comments":"This paper has been submitted for possible publication","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Emerging intelligent reflecting surfaces (IRSs) significantly improve system\nperformance, but also pose a huge risk for physical layer security. Existing\nworks have illustrated that a disco IRS (DIRS), i.e., an illegitimate IRS with\nrandom time-varying reflection properties (like a \"disco ball\"), can be\nemployed by an attacker to actively age the channels of legitimate users (LUs).\nSuch active channel aging (ACA) generated by the DIRS can be employed to jam\nmulti-user multiple-input single-output (MU-MISO) systems without relying on\neither jamming power or LU channel state information (CSI). To address the\nsignificant threats posed by DIRS-based fully-passive jammers (FPJs), an\nanti-jamming precoder is proposed that requires only the statistical\ncharacteristics of the DIRS-based ACA channels instead of their CSI. The\nstatistical characteristics of DIRS-jammed channels are first derived, and then\nthe anti-jamming precoder is derived based on the statistical characteristics.\nFurthermore, we prove that the anti-jamming precoder can achieve the maximum\nsignal-to-jamming-plus-noise ratio (SJNR). To acquire the ACA statistics\nwithout changing the system architecture or cooperating with the illegitimate\nDIRS, we design a data frame structure that the legitimate access point (AP)\ncan use to estimate the statistical characteristics. During the designed data\nframe, the LUs only need to feed back their received power to the legitimate AP\nwhen they detect jamming attacks. Numerical results are also presented to\nevaluate the effectiveness of the proposed anti-jamming precoder against the\nDIRS-based FPJs and the feasibility of the designed data frame used by the\nlegitimate AP to estimate the statistical characteristics.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:37:05 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Huang","Huan",""],["Dai","Lipeng",""],["Zhang","Hongliang",""],["Tian","Zhongxing",""],["Cai","Yi",""],["Zhang","Chongfu",""],["Swindlehurst","A. Lee",""],["Han","Zhu",""]]} +{"id":"2308.15717","submitter":"Zelong Lu","authors":"Zelong Lu (1), Jianxue Wang (1), Mohammad Shahidehpour (2), Linquan\n Bai (3), Zuyi Li (2), Lei Yan (2), Xianlong Chen (1) ((1) Xian Jiaotong\n University, School of Electrical Engineering, (2) Illinois Institute of\n Technology, ECE Department, (3) UNC, ECE)","title":"Risk-aware Flexible Resource Utilization in an Unbalanced Three-Phase\n Distribution Network using SDP-based Distributionally Robust Optimal Power\n Flow","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SY cs.SY math.OC","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" The variability caused by the proliferation of distributed energy resources\n(DERs) and the significant growth in unbalanced three-phase loads pose\nunprecedented challenges to distribution network operations. This paper focuses\non how a distribution system operator (DSO), taking over the distribution grid\nand market operations, would develop a risk-aware flexibility market to\nmitigate uncertainties in an unbalanced three-phase power distribution network.\nFirst, a distributionally robust chance constraint (DRCC) method is devised to\nsolve the unbalanced three-phase optimal power flow using a semidefinite\nprogramming (SDP) model. The DSO can apply the proposed solution to jointly\nclear energy and flexibility markets. Then, the DRCC model accuracy is improved\nby an information-sharing mechanism characterized by spatially-correlated\nuncertainties in the distribution grid. Further, a novel system-wide response\nfunction is derived to make the DRCC model tractable. Using the duality theory,\nthe paper further investigates the physical composition of the DSO's cleared\nflexibility prices to guide the unbalanced distribution network operation.\nFinally, the effectiveness of the risk-aware flexibility market is verified in\na modified three-phase IEEE 34-node system. Results demonstrate that the\nflexibility market can quantify the impact of spatially correlated\nuncertainties and facilitate the utilization of flexible resources to mitigate\nuncertainties across the network.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:41:42 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Lu","Zelong",""],["Wang","Jianxue",""],["Shahidehpour","Mohammad",""],["Bai","Linquan",""],["Li","Zuyi",""],["Yan","Lei",""],["Chen","Xianlong",""]]} +{"id":"2308.15718","submitter":"Masayuki Hojo","authors":"Masayuki Hojo and KoichiroTanaka","title":"Single-pass generation of widely-tunable frequency-domain entangled\n photon pairs","comments":"11 pages, 5 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We demonstrate a technique that generates frequency-entangled photon pairs\nwith high polarization definition by using a single-period nonlinear crystal\nand single pass configuration. The technique is based on the simultaneous\noccurrence of two spontaneous parametric down-conversion processes satisfying\nindependent type-II collinear pseudo-phase matching conditions in periodically\npoled stoichiometric lithium tantalate. The generated photon pairs exhibit\nnon-degenerate Hong-Ou-Mandel interference, indicating the presence of quantum\nentanglement in the frequency domain. This method provides a light source\ncapable of wide-range quantum sensing and quantum imaging or high-dimensional\nquantum processing.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:43:33 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Hojo","Masayuki",""],["KoichiroTanaka","",""]]} +{"id":"2308.15719","submitter":"Robert M. Ziff","authors":"Zhipeng Xun, Dapeng Hao, and Robert M. Ziff","title":"Extended-range percolation in five dimensions","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.stat-mech","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Percolation on a five-dimensional simple hypercubic (sc(5)) lattice with\nextended neighborhoods is investigated by means of extensive Monte Carlo\nsimulations, using an effective single-cluster growth algorithm. The critical\nexponents, including $\\tau$ and $\\Omega$, the asymptotic behavior of the\nthreshold $p_c$ and its dependence on coordination number $z$ are investigated.\nUsing the bond and site percolation thresholds $p_c = 0.11817145(3)$ and\n$0.14079633(4)$ respectively given by Mertens and Moore [Phys. Rev. E 98,\n022120 (2018)], we find critical exponents of $\\tau = 2.4177(3)$, $\\Omega =\n0.27(2)$ through a self-consistent process. The value of $\\tau$ compares\nfavorably with a recent five-loop renormalization predictions $2.4175(2)$ by\nBorinsky et al. [Phys. Rev. D 103, 116024 (2021)], the value 2.4180(6) that\nfollows from the work of Zhang et al. [Physica A 580, 126124 (2021)], and the\nmeasurement of $2.419(1)$ by Mertens and Moore. We also confirmed the bond\nthreshold, finding $p_c = 0.11817150(5)$. sc(5) lattices with extended\nneighborhoods up to 7th nearest neighbors are studied for both bond and site\npercolation. Employing the values of $\\tau$ and $\\Omega$ mentioned above,\nthresholds are found to high precision. For bond percolation, the asymptotic\nvalue of $zp_c$ tends to Bethe-lattice behavior ($z p_c \\sim 1$), and the\nfinite-$z$ correction is found to be consistent with both and $zp_{c} - 1 \\sim\na_1 z^{-0.88}$ and $zp_{c} - 1 \\sim a_0(3 + \\ln z)/z$. For site percolation,\nthe asymptotic analysis is close to the predicted behavior $zp_c \\sim 32\\eta_c\n= 1.742(2)$ for large $z$, where $\\eta_c = 0.05443(7)$ is the continuum\npercolation threshold of five-dimensional hyperspheres given by Torquato and\nJiao [J. Chem. Phys 137, 074106 (2015)]; finite-$z$ corrections are accounted\nfor by taking $p_c \\approx c/(z + b)$ with $c=1.722(7)$ and $b=1$.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:48:35 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Xun","Zhipeng",""],["Hao","Dapeng",""],["Ziff","Robert M.",""]]} +{"id":"2308.15720","submitter":"Younghyun Cho","authors":"Younghyun Cho, James W. Demmel, Micha{\\l} Derezi\\'nski, Haoyun Li,\n Hengrui Luo, Michael W. Mahoney, Riley J. Murray","title":"Surrogate-based Autotuning for Randomized Sketching Algorithms in\n Regression Problems","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Algorithms from Randomized Numerical Linear Algebra (RandNLA) are known to be\neffective in handling high-dimensional computational problems, providing\nhigh-quality empirical performance as well as strong probabilistic guarantees.\nHowever, their practical application is complicated by the fact that the user\nneeds to set various algorithm-specific tuning parameters which are different\nthan those used in traditional NLA. This paper demonstrates how a\nsurrogate-based autotuning approach can be used to address fundamental problems\nof parameter selection in RandNLA algorithms. In particular, we provide a\ndetailed investigation of surrogate-based autotuning for\nsketch-and-precondition (SAP) based randomized least squares methods, which\nhave been one of the great success stories in modern RandNLA. Empirical results\nshow that our surrogate-based autotuning approach can achieve near-optimal\nperformance with much less tuning cost than a random search (up to about 4x\nfewer trials of different parameter configurations). Moreover, while our\nexperiments focus on least squares, our results demonstrate a general-purpose\nautotuning pipeline applicable to any kind of RandNLA algorithm.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:50:54 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Cho","Younghyun",""],["Demmel","James W.",""],["Derezi\u0144ski","Micha\u0142",""],["Li","Haoyun",""],["Luo","Hengrui",""],["Mahoney","Michael W.",""],["Murray","Riley J.",""]]} +{"id":"2308.15721","submitter":"Robert Hickingbotham","authors":"Robert Hickingbotham, Raphael Steiner, David R. Wood","title":"Clustered Colouring of Odd-$H$-Minor-Free Graphs","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The clustered chromatic number of a graph class $\\mathcal{G}$ is the minimum\ninteger $c$ such that every graph $G\\in\\mathcal{G}$ has a $c$-colouring where\neach monochromatic component in $G$ has bounded size. We study the clustered\nchromatic number of graph classes $\\mathcal{G}_H^{\\text{odd}}$ defined by\nexcluding a graph $H$ as an odd-minor. How does the structure of $H$ relate to\nthe clustered chromatic number of $\\mathcal{G}_H^{\\text{odd}}$? Using a proof\nmethod by Norin, Scott, Seymour and Wood (2019), we show that the clustered\nchromatic number of $\\mathcal{G}_H^{\\text{odd}}$ is tied to the tree-depth of\n$H$.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:53:20 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Hickingbotham","Robert",""],["Steiner","Raphael",""],["Wood","David R.",""]]} +{"id":"2308.15722","submitter":"Shao-Chun Li","authors":"Cheng-Long Xue, Qian-Qian Yuan, Yong-Jie Xu, Qi-Yuan Li, Li-Guo Dou,\n Zhen-Yu Jia and Shao-Chun Li","title":"Checkerboard order state in superconducting FeSe/SrTiO3(001) monolayer","comments":"22 pages, 4 figures","journal-ref":"Phys. Rev. B 107, 134516 (2023)","doi":"10.1103/PhysRevB.107.134516","report-no":null,"categories":"cond-mat.supr-con cond-mat.mtrl-sci cond-mat.str-el","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Ordered electronic states have been extensively explored in cuprates and\niron-based unconventional superconductors, but seldom observed in the epitaxial\nFeSe/SrTiO3(001) monolayer (FeSe/STO) with an enhanced superconducting\ntransition temperature (Tc). Here, by using scanning tunneling microscopy/\nspectroscopy (STM/STS), we reveal a checkerboard charge order in the epitaxial\nFeSe/STO monolayer, with a period of four times the inter-Fe-atom distance\nalong two perpendicular directions of the Fe lattice. This ordered state is\nuniquely present in the superconducting FeSe/STO monolayer, even at liquid\nnitrogen temperature, but absent in the non-superconducting FeSe monolayer or\nbilayer. Quasiparticle interference (QPI) measurements further confirm it as a\nstatic order without an energy-dependent dispersion and gapped out within the\nsuperconductivity gap. The intensity of the charge order shows an enhancement\nnear the superconducting transition temperature, thus implying a correlation\nwith the high-Tc superconductivity in the FeSe/STO monolayer. This study\nprovides a new basis for exploring the ordered electronic states and their\ninterplay with high-Tc superconductivity in the FeSe monolayer.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:53:25 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Xue","Cheng-Long",""],["Yuan","Qian-Qian",""],["Xu","Yong-Jie",""],["Li","Qi-Yuan",""],["Dou","Li-Guo",""],["Jia","Zhen-Yu",""],["Li","Shao-Chun",""]]} +{"id":"2308.15723","submitter":"Maoliang Wei","authors":"Maoliang Wei, Kai Xu, Bo Tang, Junying Li, Yiting Yun, Peng Zhang,\n Yingchun Wu, Kangjian Bao, Kunhao Lei, Zequn Chen, Hui Ma, Chunlei Sun,\n Ruonan Liu, Ming Li, Lan Li, Hongtao Lin","title":"\"Zero change\" platform for monolithic back-end-of-line integration of\n phase change materials in silicon photonics","comments":"20 pages, 4 figures, submitted to Nature Photonics","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.optics physics.app-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Monolithic integration of novel materials for unprecedented device functions\nwithout modifying the existing photonic component library is the key to\nadvancing heterogeneous silicon photonic integrated circuits. To achieve this,\nthe introduction of a silicon nitride etching stop layer at selective area,\ncoupled with low-loss oxide trench to waveguide surface, enables the\nincorporation of various functional materials without disrupting the\nreliability of foundry-verified devices. As an illustration, two distinct\nchalcogenide phase change materials (PCM) with remarkable nonvolatile\nmodulation capabilities, namely Sb2Se3 and Ge2Sb2Se4Te1, were monolithic\nback-end-of-line integrated into silicon photonics. The PCM enables compact\nphase and intensity tuning units with zero-static power consumption. Taking\nadvantage of these building blocks, the phase error of a push-pull Mach-Zehnder\ninterferometer optical switch could be trimmed by a nonvolatile phase shifter\nwith a 48% peak power consumption reduction. Mirco-ring filters with a\nrejection ratio >25dB could be applied for >5-bit wavelength selective\nintensity modulation, and waveguide-based >7-bit intensity-modulation photonic\nattenuators could achieve >39dB broadband attenuation. The advanced \"Zero\nchange\" back-end-of-line integration platform could not only facilitate the\nintegration of PCMs for integrated reconfigurable photonics but also open up\nthe possibilities for integrating other excellent optoelectronic materials in\nthe future silicon photonic process design kits.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:56:18 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Wei","Maoliang",""],["Xu","Kai",""],["Tang","Bo",""],["Li","Junying",""],["Yun","Yiting",""],["Zhang","Peng",""],["Wu","Yingchun",""],["Bao","Kangjian",""],["Lei","Kunhao",""],["Chen","Zequn",""],["Ma","Hui",""],["Sun","Chunlei",""],["Liu","Ruonan",""],["Li","Ming",""],["Li","Lan",""],["Lin","Hongtao",""]]} +{"id":"2308.15724","submitter":"Hongwei Dong","authors":"Hongwei Dong and Fangzhou Han and Lingyu Si and Wenwen Qiang and Lamei\n Zhang","title":"Background Debiased SAR Target Recognition via Causal Interventional\n Regularizer","comments":"38 pages, 8 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Recent studies have utilized deep learning (DL) techniques to automatically\nextract features from synthetic aperture radar (SAR) images, which shows great\npromise for enhancing the performance of SAR automatic target recognition\n(ATR). However, our research reveals a previously overlooked issue: SAR images\nto be recognized include not only the foreground (i.e., the target), but also a\ncertain size of the background area. When a DL-model is trained exclusively on\nforeground data, its recognition performance is significantly superior to a\nmodel trained on original data that includes both foreground and background.\nThis suggests that the presence of background impedes the ability of the\nDL-model to learn additional semantic information about the target. To address\nthis issue, we construct a structural causal model (SCM) that incorporates the\nbackground as a confounder. Based on the constructed SCM, we propose a causal\nintervention based regularization method to eliminate the negative impact of\nbackground on feature semantic learning and achieve background debiased\nSAR-ATR. The proposed causal interventional regularizer can be integrated into\nany existing DL-based SAR-ATR models to mitigate the impact of background\ninterference on the feature extraction and recognition accuracy. Experimental\nresults on the Moving and Stationary Target Acquisition and Recognition (MSTAR)\ndataset indicate that the proposed method can enhance the efficiency of\nexisting DL-based methods in a plug-and-play manner.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:56:55 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Dong","Hongwei",""],["Han","Fangzhou",""],["Si","Lingyu",""],["Qiang","Wenwen",""],["Zhang","Lamei",""]]} +{"id":"2308.15725","submitter":"Zhiqiang Tan","authors":"Zhiqiang Tan","title":"Sensitivity models and bounds under sequential unmeasured confounding in\n longitudinal studies","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.ST stat.TH","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Consider sensitivity analysis to assess the worst-case possible values of\ncounterfactual outcome means and average treatment effects under sequential\nunmeasured confounding in a longitudinal study with time-varying treatments and\ncovariates. We formulate several multi-period sensitivity models to relax the\ncorresponding versions of the assumption of sequential unconfounding. The\nprimary sensitivity model involves only counterfactual outcomes, whereas the\njoint and product sensitivity models involve both counterfactual covariates and\noutcomes. We establish and compare explicit representations for the sharp and\nconservative bounds at the population level through convex optimization,\ndepending only on the observed data. These results provide for the first time a\nsatisfactory generalization from the marginal sensitivity model in the\ncross-sectional setting.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 02:57:40 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Tan","Zhiqiang",""]]} +{"id":"2308.15726","submitter":"Fei Yu","authors":"Nan Che and Chenrui Liu and Fei Yu","title":"AGS: An Dataset and Taxonomy for Domestic Scene Sound Event Recognition","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SD cs.AI eess.AS","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Environmental sound scene and sound event recognition is important for the\nrecognition of suspicious events in indoor and outdoor environments (such as\nnurseries, smart homes, nursing homes, etc.) and is a fundamental task involved\nin many audio surveillance applications. In particular, there is no public\ncommon data set for the research field of sound event recognition for the data\nset of the indoor environmental sound scene. Therefore, this paper proposes a\ndata set (called as AGS) for the home environment sound. This data set\nconsiders various types of overlapping audio in the scene, background noise.\nMoreover, based on the proposed data set, this paper compares and analyzes the\nadvanced methods for sound event recognition, and then illustrates the\nreliability of the data set proposed in this paper, and studies the challenges\nraised by the new data set. Our proposed AGS and the source code of the\ncorresponding baselines at https://github.com/taolunzu11/AGS .\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:03:47 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Che","Nan",""],["Liu","Chenrui",""],["Yu","Fei",""]]} +{"id":"2308.15727","submitter":"Jiuyang Xiang","authors":"Zhenhong Zhou, Jiuyang Xiang, Chaomeng Chen, Sen Su","title":"Quantifying and Analyzing Entity-level Memorization in Large Language\n Models","comments":"9 pages, 7 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Large language models (LLMs) have been proven capable of memorizing their\ntraining data, which can be extracted through specifically designed prompts. As\nthe scale of datasets continues to grow, privacy risks arising from\nmemorization have attracted increasing attention. Quantifying language model\nmemorization helps evaluate potential privacy risks. However, prior works on\nquantifying memorization require access to the precise original data or incur\nsubstantial computational overhead, making it difficult for applications in\nreal-world language models. To this end, we propose a fine-grained,\nentity-level definition to quantify memorization with conditions and metrics\ncloser to real-world scenarios. In addition, we also present an approach for\nefficiently extracting sensitive entities from autoregressive language models.\nWe conduct extensive experiments based on the proposed, probing language\nmodels' ability to reconstruct sensitive entities under different settings. We\nfind that language models have strong memorization at the entity level and are\nable to reproduce the training data even with partial leakages. The results\ndemonstrate that LLMs not only memorize their training data but also understand\nassociations between entities. These findings necessitate that trainers of LLMs\nexercise greater prudence regarding model memorization, adopting memorization\nmitigation techniques to preclude privacy violations.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:06:47 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Zhou","Zhenhong",""],["Xiang","Jiuyang",""],["Chen","Chaomeng",""],["Su","Sen",""]]} +{"id":"2308.15728","submitter":"Chao Gao","authors":"Yuetian Luo and Chao Gao","title":"Computational Lower Bounds for Graphon Estimation via Low-degree\n Polynomials","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.ST cs.CC cs.DS stat.ML stat.TH","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Graphon estimation has been one of the most fundamental problems in network\nanalysis and has received considerable attention in the past decade. From the\nstatistical perspective, the minimax error rate of graphon estimation has been\nestablished by Gao et al (2015) for both stochastic block model (SBM) and\nnonparametric graphon estimation. The statistical optimal estimators are based\non constrained least squares and have computational complexity exponential in\nthe dimension. From the computational perspective, the best-known\npolynomial-time estimator is based on universal singular value thresholding\n(USVT), but it can only achieve a much slower estimation error rate than the\nminimax one. It is natural to wonder if such a gap is essential. The\ncomputational optimality of the USVT or the existence of a computational\nbarrier in graphon estimation has been a long-standing open problem. In this\nwork, we take the first step towards it and provide rigorous evidence for the\ncomputational barrier in graphon estimation via low-degree polynomials.\nSpecifically, in both SBM and nonparametric graphon estimation, we show that\nfor low-degree polynomial estimators, their estimation error rates cannot be\nsignificantly better than that of the USVT under a wide range of parameter\nregimes. Our results are proved based on the recent development of low-degree\npolynomials by Schramm and Wein (2022), while we overcome a few key challenges\nin applying it to the general graphon estimation problem. By leveraging our\nmain results, we also provide a computational lower bound on the clustering\nerror for community detection in SBM with a growing number of communities and\nthis yields a new piece of evidence for the conjectured Kesten-Stigum threshold\nfor efficient community recovery.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:11:42 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Luo","Yuetian",""],["Gao","Chao",""]]} +{"id":"2308.15729","submitter":"Da Chen","authors":"Da Chen and Jean-Marie Mirebeau and Minglei Shu and Laurent D. Cohen","title":"Computing Geodesic Paths Encoding a Curvature Prior","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CG cs.NA math.NA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper, we introduce an efficient method for computing curves\nminimizing a variant of the Euler-Mumford elastica energy, with fixed endpoints\nand tangents at these endpoints, where the bending energy is enhanced with a\nuser defined and data-driven scalar-valued term referred to as the curvature\nprior. In order to guarantee that the globally optimal curve is extracted, the\nproposed method involves the numerical computation of the viscosity solution to\na specific static Hamilton-Jacobi-Bellman (HJB) partial differential equation\n(PDE). For that purpose, we derive the explicit Hamiltonian associated to this\nvariant model equipped with a curvature prior, discretize the resulting HJB PDE\nusing an adaptive finite difference scheme, and solve it in a single pass using\na generalized Fast-Marching method. In addition, we also present a practical\nmethod for estimating the curvature prior values from image data, designed for\nthe task of accurately tracking curvilinear structure centerlines. Numerical\nexperiments on synthetic and real image data illustrate the advantages of the\nconsidered variant of the elastica model with a prior curvature enhancement in\ncomplex scenarios where challenging geometric structures appear.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:11:43 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Chen","Da",""],["Mirebeau","Jean-Marie",""],["Shu","Minglei",""],["Cohen","Laurent D.",""]]} +{"id":"2308.15730","submitter":"Joe Beck","authors":"Joe Beck, Subhadeep Chakraborty","title":"Fully Embedded Time-Series Generative Adversarial Networks","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Generative Adversarial Networks (GANs) should produce synthetic data that\nfits the underlying distribution of the data being modeled. For real valued\ntime-series data, this implies the need to simultaneously capture the static\ndistribution of the data, but also the full temporal distribution of the data\nfor any potential time horizon. This temporal element produces a more complex\nproblem that can potentially leave current solutions under-constrained,\nunstable during training, or prone to varying degrees of mode collapse. In\nFETSGAN, entire sequences are translated directly to the generator's sampling\nspace using a seq2seq style adversarial auto encoder (AAE), where adversarial\ntraining is used to match the training distribution in both the feature space\nand the lower dimensional sampling space. This additional constraint provides a\nloose assurance that the temporal distribution of the synthetic samples will\nnot collapse. In addition, the First Above Threshold (FAT) operator is\nintroduced to supplement the reconstruction of encoded sequences, which\nimproves training stability and the overall quality of the synthetic data being\ngenerated. These novel contributions demonstrate a significant improvement to\nthe current state of the art for adversarial learners in qualitative measures\nof temporal similarity and quantitative predictive ability of data generated\nthrough FETSGAN.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:14:02 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Beck","Joe",""],["Chakraborty","Subhadeep",""]]} +{"id":"2308.15731","submitter":"Liu Tonghua","authors":"Tonghua Liu, Xiyan Yang, Zisheng Zhang, Jieci Wang, Marek Biesiada","title":"Measurements of the Hubble constant from combinations of supernovae and\n radio quasars","comments":"20 pages, 5 figures, accepted for publication in Physics Letters B","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.CO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this letter, we propose an improved cosmological model independent method\nof determining the value of the Hubble constant $H_0$. The method uses\nunanchored luminosity distances $H_0d_L(z)$ from SN Ia Pantheon data combined\nwith angular diameter distances $d_A(z)$ from a sample of intermediate\nluminosity radio quasars calibrated as standard rulers. The distance duality\nrelation between $d_L(z)$ and $d_A(z)$, which is robust and independent of any\ncosmological model, allows to disentangle $H_0$ from such combination. However,\nthe number of redshift matched quasars and SN Ia pairs is small (37\ndata-points). Hence, we take an advantage from the Artificial Neural Network\n(ANN) method to recover the $d_A(z)$ relation from a network trained on full\n120 radio quasar sample. In this case, the result is unambiguously consistent\nwith values of $H_0$ obtained from local probes by SH0ES and H0LiCOW\ncollaborations. Three statistical summary measures: weighted mean\n$\\widetilde{H}_0=73.51(\\pm0.67) {~km~s^{-1}~Mpc^{-1}}$, median\n$Med(H_0)=74.71(\\pm4.08) {~km~s^{-1}~Mpc^{-1}}$ and MCMC simulated posterior\ndistribution $H_0=73.52^{+0.66}_{-0.68} {~km~s^{-1}~Mpc^{-1}}$ are fully\nconsistent with each other and the precision reached $1\\%$ level. This is\nencouraging for the future applications of our method. Because individual\nmeasurements of $H_0$ are related to different redshifts spanning the range\n$z=0.5 - 2.0$, we take advantage of this fact to check if there is any\nnoticeable trend in $H_0$ measurements with redshift of objects used for this\npurpose. However, our result is that the data we used strongly support the lack\nof such systematic effects.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:15:17 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Liu","Tonghua",""],["Yang","Xiyan",""],["Zhang","Zisheng",""],["Wang","Jieci",""],["Biesiada","Marek",""]]} +{"id":"2308.15732","submitter":"Mahmoud Abdelgalil","authors":"Mahmoud Abdelgalil and Jorge I. Poveda","title":"On Lie-Bracket Averaging for a Class of Hybrid Dynamical Systems with\n Applications to Model-Free Control and Optimization","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.OC","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Dynamical systems characterized by oscillatory behaviors and well-defined\naverage vector fields have traditionally been subjects of stability analysis\nthrough methodologies rooted in averaging theory. Such tools have also found\napplication in the stability analysis of systems that combine continuous-time\ndynamics and discrete-time dynamics, referred to as hybrid dynamical systems.\nHowever, in contrast to the existing results available in the literature for\ncontinuous-time systems, averaging results for hybrid systems have mostly been\nlimited to first-order averaging methods. This limitation prevents their direct\napplication for the analysis and design of systems and algorithms requiring\nhigh-order averaging techniques. Among other applications, such techniques are\nnecessary to analyze hybrid Lie-bracket-based extremum seeking algorithms and\nhybrid vibrational controllers. To address this gap, this paper introduces a\nnovel high-order averaging theorem for the stability analysis of hybrid\ndynamical systems with high-frequency periodic flow maps. The considered\nsystems allow for the incorporation of set-valued flow maps and jump maps,\neffectively modeling well-posed differential and difference inclusions. By\nimposing appropriate regularity conditions on the hybrid system's data, results\non $(T,\\varepsilon)$-closeness of solutions and semi-global practical\nasymptotic stability for sets are established. In this way, our findings yield\nhybrid Lie-bracket averaging tools that extend those found in the literature on\nordinary differential equations. These theoretical results are then applied to\nthe study of three distinct applications in the context of model-free control\nand optimization.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:16:41 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Abdelgalil","Mahmoud",""],["Poveda","Jorge I.",""]]} +{"id":"2308.15733","submitter":"Changhao Chen","authors":"Zhihao Jia, Bing Wang, Changhao Chen","title":"Drone-NeRF: Efficient NeRF Based 3D Scene Reconstruction for Large-Scale\n Drone Survey","comments":"15 pages, 7 figures, in submission","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV cs.RO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Neural rendering has garnered substantial attention owing to its capacity for\ncreating realistic 3D scenes. However, its applicability to extensive scenes\nremains challenging, with limitations in effectiveness. In this work, we\npropose the Drone-NeRF framework to enhance the efficient reconstruction of\nunbounded large-scale scenes suited for drone oblique photography using Neural\nRadiance Fields (NeRF). Our approach involves dividing the scene into uniform\nsub-blocks based on camera position and depth visibility. Sub-scenes are\ntrained in parallel using NeRF, then merged for a complete scene. We refine the\nmodel by optimizing camera poses and guiding NeRF with a uniform sampler.\nIntegrating chosen samples enhances accuracy. A hash-coded fusion MLP\naccelerates density representation, yielding RGB and Depth outputs. Our\nframework accounts for sub-scene constraints, reduces parallel-training noise,\nhandles shadow occlusion, and merges sub-regions for a polished rendering\nresult. This Drone-NeRF framework demonstrates promising capabilities in\naddressing challenges related to scene complexity, rendering efficiency, and\naccuracy in drone-obtained imagery.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:17:57 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Jia","Zhihao",""],["Wang","Bing",""],["Chen","Changhao",""]]} +{"id":"2308.15734","submitter":"Yuya Sasaki","authors":"Yuya Sasaki","title":"Efficient and Explainable Graph Neural Architecture Search via\n Monte-Carlo Tree Search","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI cs.DB","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Graph neural networks (GNNs) are powerful tools for performing data science\ntasks in various domains. Although we use GNNs in wide application scenarios,\nit is a laborious task for researchers and practitioners to design/select\noptimal GNN rchitectures in diverse graphs. To save human efforts and\ncomputational costs, graph neural architecture search (Graph NAS) has been used\nto search for a sub-optimal GNN architecture that combines existing components.\nHowever, there are no existing Graph NAS methods that satisfy explainability,\nefficiency, and adaptability to various graphs. Therefore, we propose an\nefficient and explainable Graph NAS method, called ExGNAS, which consists of\n(i) a simple search space that can adapt to various graphs and (ii) a search\nalgorithm that makes the decision process explainable. The search space\nincludes only fundamental functions that can handle homophilic and heterophilic\ngraphs. The search algorithm efficiently searches for the best GNN architecture\nvia Monte-Carlo tree search without neural models. The combination of our\nsearch space and algorithm achieves finding accurate GNN models and the\nimportant functions within the search space. We comprehensively evaluate our\nmethod compared with twelve hand-crafted GNN architectures and three Graph NAS\nmethods in four graphs. Our experimental results show that ExGNAS increases AUC\nup to 3.6 and reduces run time up to 78\\% compared with the state-of-the-art\nGraph NAS methods. Furthermore, we show ExGNAS is effective in analyzing the\ndifference between GNN architectures in homophilic and heterophilic graphs.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:21:45 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Sasaki","Yuya",""]]} +{"id":"2308.15735","submitter":"Chris Blake","authors":"Chris Blake, Ryan J. Turner","title":"On the correlations of galaxy peculiar velocities and their covariance","comments":"20 pages, 9 figures, submitted to MNRAS, comments welcome","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.CO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Measurements of the peculiar velocities of large samples of galaxies enable\nnew tests of the standard cosmological model, including determination of the\ngrowth rate of cosmic structure that encodes gravitational physics. With the\nsize of such samples now approaching hundreds of thousands of galaxies, complex\nstatistical analysis techniques and models are required to extract cosmological\ninformation. In this paper we summarise how correlation functions between\ngalaxy velocities, and with the surrounding large-scale structure, may be\nutilised to test cosmological models. We present new determinations of the\nanalytical covariance between such correlation functions, which may be useful\nfor cosmological likelihood analyses. The statistical model we use to determine\nthese covariances includes the sample selection functions, observational noise,\ncurved-sky effects and redshift-space distortions. By comparing these\ncovariance determinations with corresponding estimates from large suites of\ncosmological simulations, we demonstrate that these analytical models recover\nthe key features of the covariance between different statistics and\nseparations, and produce similar measurements of the growth rate of structure.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:25:46 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Blake","Chris",""],["Turner","Ryan J.",""]]} +{"id":"2308.15736","submitter":"Zhenyong Zhang","authors":"Zhenyong Zhang and Mengxiang Liu and Mingyang Sun and Ruilong Deng and\n Peng Cheng and Dusit Niyato and Mo-Yuen Chow and Jiming Chen","title":"Vulnerability of Machine Learning Approaches Applied in IoT-based Smart\n Grid: A Review","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CR cs.SY eess.SY","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The machine learning (ML) sees an increasing prevalence of being used in the\ninternet-of-things enabled smart grid. However, the trustworthiness of ML is a\nsevere issue that must be addressed to accommodate the trend of ML-based smart\ngrid applications (MLsgAPPs). The adversarial distortion injected into the\npower signal will greatly affect the system's normal control and operation.\nTherefore, it is imperative to conduct vulnerability assessment for MLsgAPPs\napplied in the context of safety-critical power systems. In this paper, we\nprovide a comprehensive review of the recent progress in designing attack and\ndefense methods for MLsgAPPs. Unlike the traditional survey about ML security,\nthis is the first review work about the security of MLsgAPPs that focuses on\nthe characteristics of power systems. The survey is organized from the aspects\nof adversarial assumptions, targeted applications, evaluation metrics,\ndefending approaches, physics-related constraints, and applied datasets. We\nalso highlight future directions on this topic to encourage more researchers to\nconduct further research on adversarial attacks and defending approaches for\nMLsgAPPs.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:29:26 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Zhang","Zhenyong",""],["Liu","Mengxiang",""],["Sun","Mingyang",""],["Deng","Ruilong",""],["Cheng","Peng",""],["Niyato","Dusit",""],["Chow","Mo-Yuen",""],["Chen","Jiming",""]]} +{"id":"2308.15737","submitter":"Seonmi Choi","authors":"Seonmi Choi, Jieon Kim","title":"Mosaics for immersed surface-links","comments":"13 pages, 25 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"math.GT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The concept of a knot mosaic was introduced by Lomonaco and Kauffman as a\nmeans to construct a quantum knot system. The mosaic number of a given knot $K$\nis defined as the minimum integer $n$ that allows the representation of $K$ on\nan $n \\times n$ mosaic board. Building upon this, the first author and Nelson\nextended the knot mosaic system to encompass surface-links through the\nutilization of marked graph diagrams and established both lower and upper\nbounds for the mosaic number of the surface-links presented in Yoshikawa's\ntable. In this paper, we establish a mosaic system for immersed surface-links\nby using singular marked graph diagrams. We also provide the definition and\ndiscussion on the mosaic number for immersed surface-links.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:30:59 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Choi","Seonmi",""],["Kim","Jieon",""]]} +{"id":"2308.15738","submitter":"Yasuhiro Tokura Prof.","authors":"Daigo Yoshino and Yasuhiro Tokura","title":"Thermodynamics of Computation for CMOS NAND Gate","comments":"10 pages6 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.stat-mech","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Understanding how much energy is needed and dissipated as heat for a given\ncomputational system and for a given program is a physically interesting and\npractically important problem. However, the thermodynamic costs of\ncomputational systems are only partially understood. In this paper, we focus on\na specific logic gate, the CMOS NAND gate, operating in the sub-threshold\nregion and analyze the dissipated heat from two aspects. One is the general\nLandauer bound, which is the change in entropy of the computational system, and\nthe other is a cost that depends on the difference between the initial and\nsteady-state distributions of the system. We find that the general Landauer\nbound is the same order for different inputs to the gate, but that the another\ncost has partially different order due to the difference between the initial\nand steady-state distributions over output logical states. We also investigate\nthe interplay between the costs, time scale, and reliability of the process and\nfind that for different inputs, there is not always a trade-off between\nreliability and dissipation of computations.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:33:14 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Yoshino","Daigo",""],["Tokura","Yasuhiro",""]]} +{"id":"2308.15739","submitter":"Michel Alexis","authors":"Michel Alexis, Jos\\'e Luis Luna-Garcia, Eric Sawyer, Ignacio\n Uriarte-Tuero","title":"The scalar $T1$ theorem for pairs of doubling measures fails for Riesz\n transforms when $p>2$ is an even integer","comments":"43 pages, 7 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CA math.FA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" For $p \\in \\{ 2m ~:~ m \\geq 2 \\} \\cup \\{\\frac{2m}{2m-1} ~:~ m \\geq 2 \\}$, we\nshow that on $L^p$, the scalar $T1$ theorem for doubling measures fails for a\nRiesz transform in $\\mathbb{R}^2$, despite holding for $p=2$, as shown by\nAlexis-Sawyer-Uriarte-Tuero. More precisely, we construct a pair of doubling\nmeasures $(\\sigma, \\omega)$ that satisfy the scalar $A_p$ condition and the\nscalar $L^p$-testing conditions for an individual Riesz transform $R_j$, and\nyet $\\left ( R_j \\right )_{\\sigma} : L^p (\\sigma) \\not \\to L^p (\\omega)$. On\nthe other hand, we provide an improvement of the positive result of Sawyer-Wick\nfor all $p \\neq 2$ by removing the vector-valued, or quadratic,\nweak-boundedness property, showing that if a pair of doubling measures\nsatisfies scalar testing and a vector-valued, or quadratic, Muckenhoupt\ncondition $A_{p} ^{\\ell^2, \\operatorname{local}}$, then the norm inequality\nholds.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:33:33 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Alexis","Michel",""],["Luna-Garcia","Jos\u00e9 Luis",""],["Sawyer","Eric",""],["Uriarte-Tuero","Ignacio",""]]} +{"id":"2308.15740","submitter":"Kagan Ozturk","authors":"Kagan Ozturk, Grace Bezold, Aman Bhatta, Haiyu Wu, Kevin Bowyer","title":"Beard Segmentation and Recognition Bias","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" A person's facial hairstyle, such as presence and size of beard, can\nsignificantly impact face recognition accuracy. There are publicly-available\ndeep networks that achieve reasonable accuracy at binary attribute\nclassification, such as beard / no beard, but few if any that segment the\nfacial hair region. To investigate the effect of facial hair in a rigorous\nmanner, we first created a set of fine-grained facial hair annotations to train\na segmentation model and evaluate its accuracy across African-American and\nCaucasian face images. We then use our facial hair segmentations to categorize\nimage pairs according to the degree of difference or similarity in the facial\nhairstyle. We find that the False Match Rate (FMR) for image pairs with\ndifferent categories of facial hairstyle varies by a factor of over 10 for\nAfrican-American males and over 25 for Caucasian males. To reduce the bias\nacross image pairs with different facial hairstyles, we propose a scheme for\nadaptive thresholding based on facial hairstyle similarity. Evaluation on a\nsubject-disjoint set of images shows that adaptive similarity thresholding\nbased on facial hairstyles of the image pair reduces the ratio between the\nhighest and lowest FMR across facial hairstyle categories for African-American\nfrom 10.7 to 1.8 and for Caucasians from 25.9 to 1.3. Facial hair annotations\nand facial hair segmentation model will be publicly available.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:35:55 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Ozturk","Kagan",""],["Bezold","Grace",""],["Bhatta","Aman",""],["Wu","Haiyu",""],["Bowyer","Kevin",""]]} +{"id":"2308.15741","submitter":"Fangfang Dou","authors":"Fangfang Dou and Peimin L\\\"u","title":"Stability and regularization for ill-posed Cauchy problem of a\n stochastic parabolic differential equation","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.NA cs.NA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this paper, we investigate an ill-posed Cauchy problem involving a\nstochastic parabolic equation. We first establish a Carleman estimate for this\nequation. Leveraging this estimate, we are able to derive the conditional\nstability and convergence rate of the Tikhonov regularization method for the\naforementioned ill-posed Cauchy problem. To complement our theoretical\nanalysis, we employ kernel-based learning theory to implement the completed\nTikhonov regularization method for several numerical examples.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:39:14 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Dou","Fangfang",""],["L\u00fc","Peimin",""]]} +{"id":"2308.15742","submitter":"Yi Liu","authors":"Yi Liu, Yuekang Li, Gelei Deng, Felix Juefei-Xu, Yao Du, Cen Zhang,\n Chengwei Liu, Yeting Li, Lei Ma and Yang Liu","title":"ASTER: Automatic Speech Recognition System Accessibility Testing for\n Stutterers","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SD cs.AI cs.SE eess.AS","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The popularity of automatic speech recognition (ASR) systems nowadays leads\nto an increasing need for improving their accessibility. Handling stuttering\nspeech is an important feature for accessible ASR systems. To improve the\naccessibility of ASR systems for stutterers, we need to expose and analyze the\nfailures of ASR systems on stuttering speech. The speech datasets recorded from\nstutterers are not diverse enough to expose most of the failures. Furthermore,\nthese datasets lack ground truth information about the non-stuttered text,\nrendering them unsuitable as comprehensive test suites. Therefore, a\nmethodology for generating stuttering speech as test inputs to test and analyze\nthe performance of ASR systems is needed. However, generating valid test inputs\nin this scenario is challenging. The reason is that although the generated test\ninputs should mimic how stutterers speak, they should also be diverse enough to\ntrigger more failures. To address the challenge, we propose ASTER, a technique\nfor automatically testing the accessibility of ASR systems. ASTER can generate\nvalid test cases by injecting five different types of stuttering. The generated\ntest cases can both simulate realistic stuttering speech and expose failures in\nASR systems. Moreover, ASTER can further enhance the quality of the test cases\nwith a multi-objective optimization-based seed updating algorithm. We\nimplemented ASTER as a framework and evaluated it on four open-source ASR\nmodels and three commercial ASR systems. We conduct a comprehensive evaluation\nof ASTER and find that it significantly increases the word error rate, match\nerror rate, and word information loss in the evaluated ASR systems.\nAdditionally, our user study demonstrates that the generated stuttering audio\nis indistinguishable from real-world stuttering audio clips.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:46:52 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Liu","Yi",""],["Li","Yuekang",""],["Deng","Gelei",""],["Juefei-Xu","Felix",""],["Du","Yao",""],["Zhang","Cen",""],["Liu","Chengwei",""],["Li","Yeting",""],["Ma","Lei",""],["Liu","Yang",""]]} +{"id":"2308.15743","submitter":"Wei Fan","authors":"Wei Fan","title":"Nontrivial zeros of the Riemann zeta function on the celestial circle","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"hep-th math-ph math.MP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this short letter, we reformulate the Riemann zeta function using the\nholographic framework of the celestial conformal field theory. For spacetime\ndimension larger than our Minkowski spacetime $M^4$, the Riemann zeta function\nis connected with the sum of the conformal primary wavefunctions evaluated over\na chain of points on the holographic boundary. Using analytic continuation, it\nfollows that the nontrivial zeros of the Riemann zeta function is connected\nwith the scaling dimension of conformal operators on the celestial circle. We\ndiscuss possible considerations with the spectrum of the celestial conformal\nfield theory, number theory and topology.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:49:17 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Fan","Wei",""]]} +{"id":"2308.15744","submitter":"Timothy Rupert","authors":"Divya Singh, Daniel S. Gianola, Timothy J. Rupert","title":"Dislocation breakaway from nanoparticle array linear complexions:\n Plasticity mechanisms and strength scaling laws","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mtrl-sci","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Linear complexions are stable defect states, where the stress field\nassociated with a dislocation induces a local phase transformation that remains\nrestricted to nanoscale dimensions. As these complexions are born at the\ndefects which control plasticity in metals, it is crucial to understand their\nimpact on subsequent mechanical properties. In this work, atomistic modeling is\nused to understand how dislocation mechanics are altered by the presence of\nnanoparticle array linear complexions in a Ni-Al alloy. Molecular dynamics\nsimulations are used to identify the critical shear stress needed to drive\ndislocation breakaway, first for nanoparticle arrays formed by Monte\nCarlo/molecular dynamics methods to represent realistic configurations and\nsubsequently for simplified models that allow the effects of particle spacing\nand size to be varied in a controlled manner. A combined bowing and progressive\nunpinning mechanism is uncovered, leading to the demonstration of a new\nstrength scaling law that differs in keys ways from classical Orowan bowing.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:52:14 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Singh","Divya",""],["Gianola","Daniel S.",""],["Rupert","Timothy J.",""]]} +{"id":"2308.15745","submitter":"Tanjim Mahmud","authors":"Tanjim Mahmud, Michal Ptaszynski, Juuso Eronen and Fumito Masui","title":"Cyberbullying Detection for Low-resource Languages and Dialects: Review\n of the State of the Art","comments":"52 Pages","journal-ref":"Information Processing & Management 2023","doi":"10.1016/j.ipm.2023.103454","report-no":"Volume 60, Issue 5, September 2023, 103454","categories":"cs.CL","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" The struggle of social media platforms to moderate content in a timely\nmanner, encourages users to abuse such platforms to spread vulgar or abusive\nlanguage, which, when performed repeatedly becomes cyberbullying a social\nproblem taking place in virtual environments, yet with real-world consequences,\nsuch as depression, withdrawal, or even suicide attempts of its victims.\nSystems for the automatic detection and mitigation of cyberbullying have been\ndeveloped but, unfortunately, the vast majority of them are for the English\nlanguage, with only a handful available for low-resource languages. To estimate\nthe present state of research and recognize the needs for further development,\nin this paper we present a comprehensive systematic survey of studies done so\nfar for automatic cyberbullying detection in low-resource languages. We\nanalyzed all studies on this topic that were available. We investigated more\nthan seventy published studies on automatic detection of cyberbullying or\nrelated language in low-resource languages and dialects that were published\nbetween around 2017 and January 2023. There are 23 low-resource languages and\ndialects covered by this paper, including Bangla, Hindi, Dravidian languages\nand others. In the survey, we identify some of the research gaps of previous\nstudies, which include the lack of reliable definitions of cyberbullying and\nits relevant subcategories, biases in the acquisition, and annotation of data.\nBased on recognizing those research gaps, we provide some suggestions for\nimproving the general research conduct in cyberbullying detection, with a\nprimary focus on low-resource languages. Based on those proposed suggestions,\nwe collect and release a cyberbullying dataset in the Chittagonian dialect of\nBangla and propose a number of initial ML solutions trained on that dataset. In\naddition, pre-trained transformer-based the BanglaBERT model was also\nattempted.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 03:52:28 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Mahmud","Tanjim",""],["Ptaszynski","Michal",""],["Eronen","Juuso",""],["Masui","Fumito",""]]} +{"id":"2308.15746","submitter":"Songtao Mao","authors":"Xue Chen, Kuan Cheng, Xin Li and Songtao Mao","title":"Random Shortening of Linear Codes and Applications","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IT math.CO math.IT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Random linear codes (RLCs) are well known to have nice combinatorial\nproperties and near-optimal parameters in many different settings. However,\ngetting explicit constructions matching the parameters of RLCs is challenging,\nand RLCs are hard to decode efficiently. This motivated several previous works\nto study the problem of partially derandomizing RLCs, by applying certain\noperations to an explicit mother code. Among them, one of the most well studied\noperations is random puncturing, where a series of works culminated in the work\nof Guruswami and Mosheiff (FOCS' 22), which showed that a random puncturing of\na low-biased code is likely to possess almost all interesting local properties\nof RLCs.\n In this work, we provide an in-depth study of another, dual operation of\nrandom puncturing, known as random shortening, which can be viewed equivalently\nas random puncturing on the dual code. Our main results show that for any small\n$\\varepsilon$, by starting from a mother code with certain weaker conditions\n(e.g., having a large distance) and performing a random (or even pseudorandom)\nshortening, the new code is $\\varepsilon$-biased with high probability. Our\nresults hold for any field size and yield a shortened code with constant rate.\nThis can be viewed as a complement to random puncturing, and together, we can\nobtain codes with properties like RLCs from weaker initial conditions.\n Our proofs involve several non-trivial methods of estimating the weight\ndistribution of codewords, which may be of independent interest.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 04:00:17 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Chen","Xue",""],["Cheng","Kuan",""],["Li","Xin",""],["Mao","Songtao",""]]} +{"id":"2308.15747","submitter":"Hengyuan Wei","authors":"Hengyuan Wei, Zhenghua Huang, Chuan Li, Zhenyong Hou, Ye Qiu, Hui Fu,\n Xianyong Bai and Lidong Xia","title":"Internal activities in a solar filament and heating to its threads","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.SR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Filaments are one of the most common features in the solar atmosphere, and\nare of significance in solar, stellar and laboratory plasma physics. Using data\nfrom the Chinese H$\\alpha$ Solar Explorer, the Solar Upper Transition Region\nImager and the Solar Dynamics Observatory, we report on multiwavelength imaging\nand spectral observations of the activation of a small filament. The filament\nactivation produces several localized dynamic brightenings, which are probably\nproduced by internal reconnections of the braided magnetic fields in the\nfilament. The filament expands during the activation and its threads reconnect\nwith the ambient magnetic fields, which leads to the formation of hot arcades\nor loops overlying the filament. The thermal energy of each of these localized\nbrightenings is estimated in the order of $10^{25}-10^{27} erg$ and the total\nenergy is estimated to be $\\sim1.77 \\times 10^{28} erg$. Our observations\ndemonstrate that the internal magnetic reconnections in the filament can lead\nto localized heating to the filament threads and prompt external reconnections\nwith ambient corona structures, and thus could contribute to the energy and\nmass transferring into the corona.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 04:01:51 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Wei","Hengyuan",""],["Huang","Zhenghua",""],["Li","Chuan",""],["Hou","Zhenyong",""],["Qiu","Ye",""],["Fu","Hui",""],["Bai","Xianyong",""],["Xia","Lidong",""]]} +{"id":"2308.15748","submitter":"Nikita Slavnov A","authors":"G. Kulkarni, N. A. Slavnov","title":"Form factor of local operators in the generalized algebraic Bethe ansatz","comments":"20 pages, no figures","journal-ref":null,"doi":null,"report-no":null,"categories":"math-ph cond-mat.other math.MP","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We consider an $XYZ$ spin chain within the framework of the generalized\nalgebraic Bethe ansatz. We study form factors of local operators corresponding\nto the singlet states in the limit of free fermions. We obtain explicit\nrepresentations for these form factors.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 04:13:39 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kulkarni","G.",""],["Slavnov","N. A.",""]]} +{"id":"2308.15749","submitter":"Yoshinori Sueno","authors":"Y. Sueno, J.J.A. Baselmans, A.H.M. Coppens, R.T G\\'enova-Santos, M.\n Hattori, S. Honda, K. Karatsu, H. Kutsuma, K. Lee, T. Nagasaki, S. Oguri, C.\n Otani, M. Peel, J. Suzuki, O. Tajima, T. Tanaka, M. Tsujii, D.J. Thoen, E.\n Won","title":"Pointing calibration of GroundBIRD telescope using Moon observation data","comments":"17 pages, 17 figures, 3 tables","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.IM","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" Understanding telescope pointing (i.e., line of sight) is important for\nobserving the cosmic microwave background (CMB) and astronomical objects. The\nMoon is a candidate astronomical source for pointing calibration. Although the\nvisible size of the Moon ($\\ang{;30}$) is larger than that of the planets, we\ncan frequently observe the Moon once a month with a high signal-to-noise ratio.\nWe developed a method for performing pointing calibration using observational\ndata from the Moon. We considered the tilts of the telescope axes as well as\nthe encoder and collimation offsets for pointing calibration. In addition, we\nevaluated the effects of the nonuniformity of the brightness temperature of the\nMoon, which is a dominant systematic error. As a result, we successfully\nachieved a pointing accuracy of $\\ang{;3.3}$ compared with an angular\nresolution of $\\ang{;36}$ (i.e., 9\\% uncertainty in the angular resolution).\nThis level of accuracy competes with past achievements in other ground-based\nCMB experiments using observational data from the planets.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 04:24:38 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Sueno","Y.",""],["Baselmans","J. J. A.",""],["Coppens","A. H. M.",""],["G\u00e9nova-Santos","R. T",""],["Hattori","M.",""],["Honda","S.",""],["Karatsu","K.",""],["Kutsuma","H.",""],["Lee","K.",""],["Nagasaki","T.",""],["Oguri","S.",""],["Otani","C.",""],["Peel","M.",""],["Suzuki","J.",""],["Tajima","O.",""],["Tanaka","T.",""],["Tsujii","M.",""],["Thoen","D. J.",""],["Won","E.",""]]} +{"id":"2308.15750","submitter":"Yu Mei","authors":"Yeping Li, Yu Mei, Yuan Yuan","title":"Asymptotic stability of shock profiles and rarefaction waves to the\n Navier-Stokes-Poisson system under space-periodic perturbations","comments":"40 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.AP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This paper concerns with the large-time behaviors of the viscous shock\nprofile and rarefaction wave under initial perturbations which tend to\nspace-periodic functions at infinities for the one-dimensional compressible\nNavier-Stokes-Poisson equations. It is proved that: (1) for the viscous shock\nwith small strength, if the initial perturbation is suitably small and\nsatisfies a zero-mass type condition, then the solution tends to background\nviscous shock with a constant shift as time tends to the infinity, and the\nshift depends on both the mass of the localized perturbation, and the\nspace-periodic perturbation; (2) for the rarefaction wave, if the initial\nperturbation is suitably small, then the solution tends to background\nrarefaction wave as time tends to infinity. The proof is based on the delicate\nconstructions of the quadratic ansatzes, which capture the infinitely many\ninteractions between the background waves and the periodic perturbations, and\nthe energy method in Eulerian coordinates involving the effect of\nself-consistent electric field. Moreover, an abstract lemma is established to\ndistinguish the non-decaying terms and good-decaying terms from the error terms\nof the equations of the quadratic ansatzes, which will be benefit to\nconstructing the ansatzes and simplifying calculations for other non-localized\nperturbation problems, especially those with complicatedly coupling physical\neffects.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 04:28:11 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Li","Yeping",""],["Mei","Yu",""],["Yuan","Yuan",""]]} +{"id":"2308.15751","submitter":"Yilong Zhang","authors":"Yilong Zhang","title":"Extension of the Topological Abel-Jacobi Map for Cubic Threefolds","comments":"34 pages, this is the second half of the paper split from\n arXiv:2010.11622v3","journal-ref":null,"doi":null,"report-no":null,"categories":"math.AG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The difference $[L_1]-[L_2]$ of a pair of skew lines on a cubic threefold\ndefines a vanishing cycle on the cubic surface as the hyperplane section\nspanned by the two lines. By deforming the hyperplane, the flat translation of\nsuch vanishing cycle forms a 72-to-1 covering space $T_v$ of a Zariski open\nsubspace of $(\\mathbb P^4)^*$. Based on a lemma of Stein on the\ncompactification of finite analytic covers, we found a compactification of\n$T_v$ to which the topological Abel-Jacobi map extends. Moreover, the boundary\npoints of the compactification can be interpreted in terms of local monodromy\nand the singularities on cubic surfaces. We prove the associated map on\nfundamental groups of topological Abel-Jacobi map is surjective.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 04:29:32 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Zhang","Yilong",""]]} +{"id":"2308.15752","submitter":"Marek Rychlik","authors":"Marek Rychlik and Bekir Tanriover and Yan Han","title":"Large-scale data extraction from the UNOS organ donor documents","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV eess.IV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The scope of our study is all UNOS data of the USA organ donors since 2008.\nThe data is not analyzable in a large scale in the past because it was captured\nin PDF documents known as \"Attachments\", whereby every donor is represented by\ndozens of PDF documents in heterogenous formats. To make the data analyzable,\none needs to convert the content inside these PDFs to an analyzable data\nformat, such as a standard SQL database. In this paper we will focus on 2022\nUNOS data comprised of $\\approx 400,000$ PDF documents spanning millions of\npages. The totality of UNOS data covers 15 years (2008--20022) and our results\nwill be quickly extended to the entire data. Our method captures a portion of\nthe data in DCD flowsheets, kidney perfusion data, and data captured during\npatient hospital stay (e.g. vital signs, ventilator settings, etc.). The\ncurrent paper assumes that the reader is familiar with the content of the UNOS\ndata. The overview of the types of data and challenges they present is a\nsubject of another paper. Here we focus on demonstrating that the goal of\nbuilding a comprehensive, analyzable database from UNOS documents is an\nattainable task, and we provide an overview of our methodology. The project\nresulted in datasets by far larger than previously available even in this\npreliminary phase.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 04:29:48 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Rychlik","Marek",""],["Tanriover","Bekir",""],["Han","Yan",""]]} +{"id":"2308.15753","submitter":"Nuwan Janaka","authors":"Nuwan Janaka, Jie Gao, Lin Zhu, Shengdong Zhao, Lan Lyu, Peisen Xu,\n Maximilian Nabokow, Silang Wang, Yanch Ong","title":"GlassMessaging: Supporting Messaging Needs During Daily Activities Using\n OST-HMDs","comments":"6 pages, 1 figure, ACM SUI 2023 (Demo)","journal-ref":"SUI 2023","doi":"10.1145/3607822.3618016","report-no":null,"categories":"cs.HC","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The act of communicating with others during routine daily tasks is both\ncommon and intuitive for individuals. However, the hands- and eyes-engaged\nnature of present digital messaging applications makes it difficult to message\nsomeone amidst such activities. We introduce GlassMessaging, a messaging\napplication designed for Optical See-Through Head-Mounted Displays (OST-HMDs).\nIt facilitates messaging through both voice and manual inputs, catering to\nsituations where hands and eyes are preoccupied. GlassMessaging was iteratively\ndeveloped through a formative study identifying current messaging behaviors and\nchallenges in common multitasking with messaging scenarios\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 04:32:50 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Janaka","Nuwan",""],["Gao","Jie",""],["Zhu","Lin",""],["Zhao","Shengdong",""],["Lyu","Lan",""],["Xu","Peisen",""],["Nabokow","Maximilian",""],["Wang","Silang",""],["Ong","Yanch",""]]} +{"id":"2308.15754","submitter":"Md Mazharul Islam","authors":"Md Mazharul Islam, Shamiul Alam, Catherine D Schuman, Md Shafayat\n Hossain, Ahmedullah Aziz","title":"A Deep Dive into the Design Space of a Dynamically Reconfigurable\n Cryogenic Spiking Neuron","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.NE cond-mat.mes-hall","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Spiking neural network offers the most bio-realistic approach to mimic the\nparallelism and compactness of the human brain. A spiking neuron is the central\ncomponent of an SNN which generates information-encoded spikes. We present a\ncomprehensive design space analysis of the superconducting memristor (SM)-based\nelectrically reconfigurable cryogenic neuron. A superconducting nanowire (SNW)\nconnected in parallel with an SM function as a dual-frequency oscillator and\ntwo of these oscillators can be coupled to design a dynamically tunable spiking\nneuron. The same neuron topology was previously proposed where a fixed\nresistance was used in parallel with the SNW. Replacing the fixed resistance\nwith the SM provides an additional tuning knob with four distinct combinations\nof SM resistances, which improves the reconfigurability by up to ~70%.\nUtilizing an external bias current (Ibias), the spike frequency can be\nmodulated up to ~3.5 times. Two distinct spike amplitudes (~1V and ~1.8 V) are\nalso achieved. Here, we perform a systematic sensitivity analysis and show that\nthe reconfigurability can be further tuned by choosing a higher input current\nstrength. By performing a 500-point Monte Carlo variation analysis, we find\nthat the spike amplitude is more variation robust than spike frequency and the\nvariation robustness can be further improved by choosing a higher Ibias. Our\nstudy provides valuable insights for further exploration of materials and\ncircuit level modification of the neuron that will be useful for system-level\nincorporation of the neuron circuit\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 04:40:50 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Islam","Md Mazharul",""],["Alam","Shamiul",""],["Schuman","Catherine D",""],["Hossain","Md Shafayat",""],["Aziz","Ahmedullah",""]]} +{"id":"2308.15755","submitter":"Karthik Elamvazhuthi","authors":"Karthik Elamvazhuthi and Spring Berman","title":"Density Stabilization Strategies for Nonholonomic Agents on Compact\n Manifolds","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SY cs.SY math.OC","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this article, we consider the problem of stabilizing a class of degenerate\nstochastic processes, which are constrained to a bounded Euclidean domain or a\ncompact smooth manifold, to a given target probability density. Most existing\nworks on modeling and control of robotic swarms that use partial differential\nequation (PDE) models assume that the robots' dynamics are holonomic, and\nhence, the associated stochastic processes have generators that are elliptic.\nWe relax this assumption on the ellipticity of the generator of the stochastic\nprocesses, and consider the more practical case of the stabilization problem\nfor a swarm of agents whose dynamics are given by a controllable driftless\ncontrol-affine system. We construct state-feedback control laws that\nexponentially stabilize a swarm of nonholonomic agents to a target probability\ndensity that is sufficiently regular. State-feedback laws can stabilize a swarm\nonly to target probability densities that are positive everywhere. To stabilize\nthe swarm to probability densities that possibly have disconnected supports, we\nintroduce a semilinear PDE model of a collection of interacting agents governed\nby a hybrid switching diffusion process. The interaction between the agents is\nmodeled using a (mean-field) feedback law that is a function of the local\ndensity of the swarm, with the switching parameters as the control inputs. We\nshow that under the action of this feedback law, the semilinear PDE system is\nglobally asymptotically stable about the given target probability density. The\nstabilization strategies with and without agent interactions are verified\nnumerically for agents that evolve according to the Brockett integrator; the\nstrategy with interactions is additionally verified for agents that evolve\naccording to an underactuated system on the sphere $S^2$.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 04:45:42 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Elamvazhuthi","Karthik",""],["Berman","Spring",""]]} +{"id":"2308.15756","submitter":"Md Mazharul Islam","authors":"Md Mazharul Islam, Shamiul Alam, Mohammad Adnan Jahangir, Garrett S.\n Rose, Suman Datta, Vijaykrishnan Narayanan, Sumeet Kumar Gupta, Ahmedullah\n Aziz","title":"Reimagining Sense Amplifiers: Harnessing Phase Transition Materials for\n Current and Voltage Sensing","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.ET cond-mat.str-el eess.SP physics.app-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Energy-efficient sense amplifier (SA) circuits are essential for reliable\ndetection of stored memory states in emerging memory systems. In this work, we\npresent four novel sense amplifier (SA) topologies based on phase transition\nmaterial (PTM) tailored for non-volatile memory applications. We utilize the\nabrupt switching and volatile hysteretic characteristics of PTMs which enables\nefficient and fast sensing operation in our proposed SA topologies. We provide\ncomprehensive details of their functionality and assess how process variations\nimpact their performance metrics. Our proposed sense amplifier topologies\nmanifest notable performance enhancement. We achieve a ~67% reduction in\nsensing delay and a ~80% decrease in sensing power for current sensing. For\nvoltage sensing, we achieve a ~75% reduction in sensing delay and a ~33%\ndecrease in sensing power. Moreover, the proposed SA topologies exhibit\nimproved variation robustness compared to conventional SAs. We also scrutinize\nthe dependence of transistor mirroring window and PTM transition voltages on\nseveral device parameters to determine the optimum operating conditions and\nstance of tunability for each of the proposed SA topologies.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 04:48:10 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Islam","Md Mazharul",""],["Alam","Shamiul",""],["Jahangir","Mohammad Adnan",""],["Rose","Garrett S.",""],["Datta","Suman",""],["Narayanan","Vijaykrishnan",""],["Gupta","Sumeet Kumar",""],["Aziz","Ahmedullah",""]]} +{"id":"2308.15757","submitter":"Emmy Blumenthal","authors":"Emmy Blumenthal, Jason W. Rocks, Pankaj Mehta","title":"Phase transition to chaos in complex ecosystems with non-reciprocal\n species-resource interactions","comments":"5 pages, 4 figures; SI: 22 pages, 19 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.bio-ph cond-mat.dis-nn cond-mat.stat-mech","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Non-reciprocal interactions between microscopic constituents can profoundly\nshape the large-scale properties of complex systems. Here, we investigate the\neffects of non-reciprocity in the context of theoretical ecology by analyzing a\ngeneralization of MacArthur's consumer-resource model with asymmetric\ninteractions between species and resources. Using a mixture of analytic cavity\ncalculations and numerical simulations, we show that such ecosystems\ngenerically undergo a phase transition to chaotic dynamics as the amount of\nnon-reciprocity is increased. We analytically construct the phase diagram for\nthis model and show that the emergence of chaos is controlled by a single\nquantity: the ratio of surviving species to surviving resources. We also\nnumerically calculate the Lyapunov exponents in the chaotic phase and carefully\nanalyze finite-size effects. Our findings show how non-reciprocal interactions\ncan give rise to complex and unpredictable dynamical behaviors even in the\nsimplest ecological consumer-resource models.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 04:56:43 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Blumenthal","Emmy",""],["Rocks","Jason W.",""],["Mehta","Pankaj",""]]} +{"id":"2308.15758","submitter":"Bowen Li","authors":"Brandon Van Over, Bowen Li, Edwin K.P. Chong, Ali Pezeshki","title":"An Improved Greedy Curvature Bound for Finite-Horizon String\n Optimization in Sensor Coverage Problem","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DS cs.DM cs.SY eess.SY","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We study the optimization problem of choosing strings of finite length to\nmaximize string submodular functions on string matroids, which is a broader\nclass of problems than maximizing set submodular functions on set matroids. We\nprovide a lower bound for the performance of the greedy algorithm in our\nproblem, and then prove that our bound is superior to the Greedy curvature\nbased bound proposed by Conforti and Cornu\\'ejols. Our bound is also more\ncomputationally feasible than most previously proposed curvature based bounds.\nFinally, we demonstrate the strength of our result on a discrete version sensor\ncoverage problem.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 04:57:58 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Van Over","Brandon",""],["Li","Bowen",""],["Chong","Edwin K. P.",""],["Pezeshki","Ali",""]]} +{"id":"2308.15759","submitter":"Ivan Stefanov","authors":"Ivan Z. Stefanov","title":"Chi-square test of the relativistic precession model through the neutron\n star IGR J17511-3057","comments":"13 pages, 3 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.HE gr-qc","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The aim of the current paper is to apply the method of Bambi (Bambi, 2015) to\na source which contains two or more simultaneous triads of variability\ncomponents. The joint chi-square variable that can be composed in this case,\nunlike some previous studies, allows the goodness of the fit to be tested. It\nappears that a good fit requires one of the observation groups to be\ndisregarded. Even then, the model prediction for the mass of the neutron star\nin the accreting millisecond pulsar IGR J17511-3057 is way too high to be\naccepted.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 04:58:17 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Stefanov","Ivan Z.",""]]} +{"id":"2308.15760","submitter":"Xiaoqi Yang Dr","authors":"Minghua Li and Kaiwen Meng and Xiaoqi Yang","title":"Variational Analysis of Kurdyka-Lojasiewicz Property by Way of Outer\n Limiting Subgradients","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.OC","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this paper, for a function $f$ locally lower semicontinuous at a\nstationary point $\\bar{x}$, we obtain complete characterizations of the\nKurdyka-{\\L}ojasiewicz (for short, K{\\L}) property and the exact estimate of\nthe K{\\L} modulus via the outer limiting subdifferential of an auxilliary\nfunction, and obtain a sufficient condition for verifying sharpness of the\nK{\\L} exponent. By introducing a $\\frac{1}{1-\\theta}$-th subderivative $h$ for\n$f$ at $\\bar{x}$, we show that the K{\\L} property of $f$ at $\\bar{x}$ with\nexponent $\\theta\\in [0, 1)$ can be inherited by $h$ at $0$ with the same\nexponent $\\theta$, and that the K{\\L} modulus of $f$ at $\\bar{x}$ is bounded\nabove by that of $(1-\\theta)h$ at $0$. When $\\theta=\\frac12$, we obtain the\nreverse results under the strong metrically subregularity of the subgradient\nmapping for the class of prox-regular, twice epi-differentiable and\nsubdifferentially continuous functions by virtue of Moreau envelopes. We apply\nthe obtained results to establish the K{\\L} property with exponent $\\frac12$\nand to provide calculations of the K{\\L} modulus for smooth functions, the\npointwise max of finitely many smooth functions and the $\\ell_p$ ($0
55 years) compared to younger adults. This analysis yielded no\nsignificant effects of age. Finally, we examined the spatial distribution of\nself-reported wayfinding uncertainty across the building floorplan, finding\nthat areas in which uncertainty was most pronounced were similar between the\nreal-world and VR settings. Thus, participants appeared to be responding to the\nsame environmental features in the real and VR conditions, but the extent of\nthese responses was significantly different. Overall, the findings suggest that\nwhen VR is used to contrast varying environmental design conditions the\nresulting data should be interpreted cautiously and should not be generalized\ninto real-world conclusions without further validation.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 05:51:09 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kalantari","Saleh",""],["Xu","Bill Tong",""],["Mostafavi","Armin",""],["Lee","Anne Seoyoung",""],["Yang","Qi",""]]}
+{"id":"2308.15775","submitter":"Amit Giveon","authors":"Amit Giveon","title":"On the cigar CFT and Schwarzschild horizons","comments":"12 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-th","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Aspects of shock waves and instantly-created folded strings operators in the\nsupersymmetric $SL(2)_k/U(1)$ CFT, and their relevance to the near-horizon\nphysics of Schwarzschild black holes in perurbative superstring theory, are\npresented.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 05:55:53 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Giveon","Amit",""]]}
+{"id":"2308.15776","submitter":"Orlando Luongo","authors":"Peter K. S. Dunsby, Orlando Luongo, Marco Muccino","title":"Unifying the dark sector through a single matter fluid with non-zero\n pressure","comments":"15 pages, 3 figures, 1 table","journal-ref":null,"doi":null,"report-no":null,"categories":"gr-qc astro-ph.CO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We explore a generalised unified dark energy model that incorporates a\nnon-minimal interaction between a tachyonic fluid and an additional scalar\nfield. Specifically, we require that the second field possesses a vacuum\nenergy, introducing an ineliminable offset due to a symmetry-breaking\nmechanism. After the transition (occurring as due to the symmetry-breaking\nmechanism of the second field), the corresponding equation of state (EoS) takes\nthe form of a combination between a generalised Chaplygin gas (GCG) component\nand a cosmological constant contribution. We reinterpret this outcome by\ndrawing parallels to the so-called Murnaghan EoS, widely-employed in the realm\nof solid-state physics to characterise fluids that, under external pressure,\ncounteract the pressure's effect. We examine the dynamic behaviour of this\nmodel and highlight its key distinctions compared to the GCG model. We\nestablish parameter bounds that clarifies the model's evolution across cosmic\nexpansion history, showing that it, precisely, exhibits behaviour akin to a\nlogotropic fluid that eventually converges to the $\\Lambda$CDM model in the\nearly universe, while behaving as a logotropic or Chaplygin gas at intermediate\nand late times respectively. We explain our findings from a thermodynamic\nperspective, and determine the small perturbations in the linear regime. At\nvery early times, the growth factor flattens as expected while the main\ndepartures occur at late times, where the Murnagham EoS results in a more\nefficient growth of perturbations. We discuss this deviation in view of current\nobservations and conclude that our model is a suitable alternative to the\nstandard cosmological paradigm, introducing the concept of a matter-like field\nwith non-zero pressure.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:07:45 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Dunsby","Peter K. S.",""],["Luongo","Orlando",""],["Muccino","Marco",""]]}
+{"id":"2308.15777","submitter":"Dongheon Lee","authors":"Dongheon Lee, and Jung-Woo Choi","title":"DeFTAN-II: Efficient Multichannel Speech Enhancement with Subgroup\n Processing","comments":"13 pages, 6 figures, submitted to IEEE/ACM Trans. Audio, Speech,\n Lang. Process","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.AS eess.SP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this work, we present DeFTAN-II, an efficient multichannel speech\nenhancement model based on transformer architecture and subgroup processing.\nDespite the success of transformers in speech enhancement, they face challenges\nin capturing local relations, reducing the high computational complexity, and\nlowering memory usage. To address these limitations, we introduce subgroup\nprocessing in our model, combining subgroups of locally emphasized features\nwith other subgroups containing original features. The subgroup processing is\nimplemented in several blocks of the proposed network. In the proposed split\ndense blocks extracting spatial features, a pair of subgroups is sequentially\nconcatenated and processed by convolution layers to effectively reduce the\ncomputational complexity and memory usage. For the F- and T-transformers\nextracting temporal and spectral relations, we introduce cross-attention\nbetween subgroups to identify relationships between locally emphasized and\nnon-emphasized features. The dual-path feedforward network then aggregates\nattended features in terms of the gating of local features processed by dilated\nconvolutions. Through extensive comparisons with state-of-the-art multichannel\nspeech enhancement models, we demonstrate that DeFTAN-II with subgroup\nprocessing outperforms existing methods at significantly lower computational\ncomplexity. Moreover, we evaluate the model's generalization capability on\nreal-world data without fine-tuning, which further demonstrates its\neffectiveness in practical scenarios.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:08:27 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Lee","Dongheon",""],["Choi","Jung-Woo",""]]}
+{"id":"2308.15778","submitter":"Alexander Kuchmizhak","authors":"Yulia Borodaenko and Dmitriy Pavlov and Artem Cherepakhin and Eugeny\n Mitsai and Andrei Pilnik and Sergey Syubaev and Stanislav O. Gurbatov and\n Evgeny Modin and Aleksey P. Porfirev and Svetlana N. Khonina and Aleksandr V.\n Shevlyagin and Evgeny L. Gurevich and Aleksandr A. Kuchmizhak","title":"Liquid-assisted laser nanotexturing of silicon: onset of hydrodynamic\n processes regulated by laser-induced periodic surface structures","comments":"13 pages, 6 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.optics cond-mat.mtrl-sci physics.app-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Here, upon systematic studies of femtosecond-laser processing of\nmonocrystalline Si in oxidation-preventing methanol, we showed that the\nelectromagnetic processes dominating at initial steps of the progressive\nmorphology evolution define the onset of the hydrodynamic processes and\nresulting morphology upon subsequent multi-pulse exposure. In particular, under\npromoted exposure quasi-regular subwavelength laser-induced periodic surface\nstructures (LIPSSs) were justified to evolve through the template-assisted\ndevelopment of the Rayleigh-Plateau hydrodynamic instability in the molten\nridges forming quasi-regular surface patterns with a supra-wavelength\nperiodicity and preferential alignment along polarization direction of the\nincident light. Subsequent exposure promotes fusion-assisted morphology\nrearrangement resulting in a spiky surface with a random orientation, yet\nconstant inter-structure distance correlated with initial LIPSS periodicity.\nAlong with the insight onto the physical picture driving the morphology\nevolution and supra-wavelength nanostructure formation, our experiments also\ndemonstrated that the resulting quasi-regular and random spiky morphology can\nbe tailored by the intensity/polarization distribution of the incident laser\nbeam allowing on-demand surface nanotexturing with diverse hierarchical surface\nmorphologies exhibiting reduced reflectivity in the visible and shortwave IR\nspectral ranges. Finally, we highlighted the practical attractiveness of the\nsuggested approach for improving near-IR photoresponse and expanding operation\nspectral range of vertical p-n junction Si photo-detector operating under room\ntemperature and zero-bias conditions via single-step annealing-free laser\nnanopatterning of its surface.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:24:21 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Borodaenko","Yulia",""],["Pavlov","Dmitriy",""],["Cherepakhin","Artem",""],["Mitsai","Eugeny",""],["Pilnik","Andrei",""],["Syubaev","Sergey",""],["Gurbatov","Stanislav O.",""],["Modin","Evgeny",""],["Porfirev","Aleksey P.",""],["Khonina","Svetlana N.",""],["Shevlyagin","Aleksandr V.",""],["Gurevich","Evgeny L.",""],["Kuchmizhak","Aleksandr A.",""]]}
+{"id":"2308.15779","submitter":"Chinkyo Kim","authors":"Hyunkyu Lee, Hyeonoh Jo, Jae Hun Kim, Jongwoo Ha, Su Young An, Jaewu\n Choi and Chinkyo Kim","title":"Exploring GaN crystallographic orientation disparity and its origin on\n bare and partly graphene-covered $m$-plane sapphire substrates","comments":"15 pages, 5 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mtrl-sci physics.app-ph","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" The crystallographic orientation of 3D materials grown over 2D\nmaterial-covered substrates is one of the critical factors in discerning the\ntrue growth mechanism among competing possibilities, including remote epitaxy,\nvan der Waals epitaxy, and pinhole-seeded lateral epitaxy also known as\nthru-hole epitaxy. However, definitive identification demands meticulous\ninvestigation to accurately interpret experimentally observed crystallographic\norientations, as misinterpretation can lead to mistaken conclusions regarding\nthe underlying growth mechanism. In this study, we demonstrate that GaN domains\nexhibit orientation disparities when grown on both bare and partly\ngraphene-covered $m$-plane sapphire substrates. Comprehensive measurements of\ncrystallographic orientation unambiguously reveal that GaN domains adopt (100)\nand (103) orientations even when grown under identical growth conditions on\nbare and partly graphene-covered $m$-plane sapphire substrates, respectively.\nParticularly, high-resolution transmission electron microscopy unequivocally\nestablishes that GaN grown over partly graphene-covered $m$-plane sapphire\nsubstrates started to nucleate on the exposed sapphire surface. Our research\nelucidates that crystallographic orientation disparities can arise even from\nthru-hole epitaxy, challenging the commonly accepted notion that such\ndisparities cannot be attributed to thru-hole epitaxy when grown under\nidentical growth conditions.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:25:26 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Lee","Hyunkyu",""],["Jo","Hyeonoh",""],["Kim","Jae Hun",""],["Ha","Jongwoo",""],["An","Su Young",""],["Choi","Jaewu",""],["Kim","Chinkyo",""]]}
+{"id":"2308.15780","submitter":"Silvery Fu","authors":"Rithvik Chuppala, Silvery Fu, Sylvia Ratnasamy","title":"DBNet: Leveraging DBMS for Network Automation","comments":"6 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.NI","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" We present DBNet, a data-driven network automation framework built on top of\na DBMS. DBNet utilizes key primitives of a DBMS including tables, procedures,\ntransactions, logging, and access control to serve the functions of a\ndata-centric network control plane. DBNet accomplishes this functionality by\nstoring mirrored network device states, executing automation programs on these\nmirror states within the DBMS, and proxying state updates out to the physical\ndevices upon changes to mirror/local state. The framework also stores network\ntelemetry data, performs analytics on the data, uses the analytics to motivate\ncontrol plane actions, and provides provenance logging features on the actions\ntaken. We apply DBNet to motivating cloud network infrastructure examples and\nshow how developers can use DBNet's interface to express rich user-defined\npolicies. Our preliminary case studies show that the overhead to run DBNet is\ntrivial in the timescales generally relevant for network automation.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:26:02 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Chuppala","Rithvik",""],["Fu","Silvery",""],["Ratnasamy","Sylvia",""]]}
+{"id":"2308.15781","submitter":"Johan Peter Uldall Fynbo","authors":"J. P. U. Fynbo, L. B. Christensen, S. J. Geier, K. E. Heintz, J.-K.\n Krogager, C. Ledoux, B. Milvang-Jensen, P. M{\\o}eller, S. Vejlgaard, J.\n Viuho, G. \\\"Ostlin","title":"On the galaxy counterpart and environment of the dusty Damped\n Lyman-$\\alpha$ Absorber at $z=2.226$ towards Q1218+0832","comments":"9 pages, 10 figures. Accepted for publication in A&A","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We report on further observations of the field of the quasar Q1218+0832.\nGeier et al. (2019) presented the discovery of the quasar resulting from a\nsearch for quasars reddened and dimmed by dust in foreground Damped Lyman-alpha\nAbsorbers (DLAs). The DLA is remarkable by having a very large HI column\ndensity close to 10^22 cm^-2. Its dust extinction curve shows the 2175 AA-bump\nknown from the Local Group. It also shows absorption from cold gas exemplified\nby CI and CO-molecules. We here present narrow-band observations of the field\nof Q1218+0832 and also use archival HST image to search for the galaxy\ncounterpart of the DLA. No emission from the DLA galaxy is found neither in the\nnarrow-band imaging nor in the HST image. In the HST image, we can probe down\nto an impact parameter of 0.3 arcsec and a 3-sigma detection limit of 26.8 mag\nper arcsec^2. In the narrow-band image, we probe down to 0 arcsec impact\nparameter and detect nothing down to a 3-sigma detection limit of about\n3*10^-17 erg s^-1 cm^-2. We do detect a bright Lyman-alpha emitter 59 arcsec\nsouth of Q1218+0832 with a flux of 3*10^-16 erg s^-1 cm^-2. We conclude that\nthe DLA galaxy must be located at very small impact parameter (<0.3 arcsec, 2.5\nkpc) or is optically dark. Also, the DLA galaxy most likely is part of a galaxy\ngroup.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:27:17 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Fynbo","J. P. U.",""],["Christensen","L. B.",""],["Geier","S. J.",""],["Heintz","K. E.",""],["Krogager","J. -K.",""],["Ledoux","C.",""],["Milvang-Jensen","B.",""],["M\u00f8eller","P.",""],["Vejlgaard","S.",""],["Viuho","J.",""],["\u00d6stlin","G.",""]]}
+{"id":"2308.15782","submitter":"Markus Kuba","authors":"Markus Kuba and Alois Panholzer","title":"On Card guessing games: limit law for no feedback one-time riffle\n shuffle","comments":"18 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO math.PR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We consider the following card guessing game with no feedback. An ordered\ndeck of n cards labeled 1 up to n is riffle-shuffled exactly one time. Then,\nthe goal of the game is to maximize the number of correct guesses of the cards.\nOne after another a single card is drawn from the top, the guesser makes a\nguess without seeing the card and gets no response if the guess was correct or\nnot. Building upon and improving earlier results, we provide a limit law for\nthe number of correct guesses and also show convergence of the integer moments.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:28:01 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kuba","Markus",""],["Panholzer","Alois",""]]}
+{"id":"2308.15783","submitter":"Tanveer Khan","authors":"Khoa Nguyen, Tanveer Khan and Antonis Michalas","title":"Split Without a Leak: Reducing Privacy Leakage in Split Learning","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CR cs.LG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The popularity of Deep Learning (DL) makes the privacy of sensitive data more\nimperative than ever. As a result, various privacy-preserving techniques have\nbeen implemented to preserve user data privacy in DL. Among various\nprivacy-preserving techniques, collaborative learning techniques, such as Split\nLearning (SL) have been utilized to accelerate the learning and prediction\nprocess. Initially, SL was considered a promising approach to data privacy.\nHowever, subsequent research has demonstrated that SL is susceptible to many\ntypes of attacks and, therefore, it cannot serve as a privacy-preserving\ntechnique. Meanwhile, countermeasures using a combination of SL and encryption\nhave also been introduced to achieve privacy-preserving deep learning. In this\nwork, we propose a hybrid approach using SL and Homomorphic Encryption (HE).\nThe idea behind it is that the client encrypts the activation map (the output\nof the split layer between the client and the server) before sending it to the\nserver. Hence, during both forward and backward propagation, the server cannot\nreconstruct the client's input data from the intermediate activation map. This\nimprovement is important as it reduces privacy leakage compared to other\nSL-based works, where the server can gain valuable information about the\nclient's input. In addition, on the MIT-BIH dataset, our proposed hybrid\napproach using SL and HE yields faster training time (about 6 times) and\nsignificantly reduced communication overhead (almost 160 times) compared to\nother HE-based approaches, thereby offering improved privacy protection for\nsensitive data in DL.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:28:42 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Nguyen","Khoa",""],["Khan","Tanveer",""],["Michalas","Antonis",""]]}
+{"id":"2308.15784","submitter":"Roman Jacome","authors":"Roman Jacome, Kumar Vijay Mishra, Brian M. Sadler and Henry Arguello","title":"Octonion Phase Retrieval","comments":"13 pages, 3 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IT eess.IV math.IT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Signal processing over hypercomplex numbers arises in many optical imaging\napplications. In particular, spectral image or color stereo data are often\nprocessed using octonion algebra. Recently, the eight-band multispectral image\nphase recovery has gained salience, wherein it is desired to recover the eight\nbands from the phaseless measurements. In this paper, we tackle this hitherto\nunaddressed hypercomplex variant of the popular phase retrieval (PR) problem.\nWe propose octonion Wirtinger flow (OWF) to recover an octonion signal from its\nintensity-only observation. However, contrary to the complex-valued Wirtinger\nflow, the non-associative nature of octonion algebra and the consequent lack of\noctonion derivatives make the extension to OWF non-trivial. We resolve this\nusing the pseudo-real-matrix representation of octonion to perform the\nderivatives in each OWF update. We demonstrate that our approach recovers the\noctonion signal up to a right-octonion phase factor. Numerical experiments\nvalidate OWF-based PR with high accuracy under both noiseless and noisy\nmeasurements.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:32:31 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Jacome","Roman",""],["Mishra","Kumar Vijay",""],["Sadler","Brian M.",""],["Arguello","Henry",""]]}
+{"id":"2308.15785","submitter":"Alexander Krause-Glau","authors":"Alexander Krause-Glau and Wilhelm Hasselbring","title":"Collaborative, Code-Proximal Dynamic Software Visualization within Code\n Editors","comments":"submitted to VISSOFT 2023(https://vissoft.info/2023/)","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Software visualizations are usually realized as standalone and isolated tools\nthat use embedded code viewers within the visualization. In the context of\nprogram comprehension, only few approaches integrate visualizations into code\neditors, such as integrated development environments. This is surprising since\nprofessional developers consider reading source code as one of the most\nimportant ways to understand software, therefore spend a lot of time with code\neditors. In this paper, we introduce the design and proof-of-concept\nimplementation for a software visualization approach that can be embedded into\ncode editors. Our contribution differs from related work in that we use dynamic\nanalysis of a software system's runtime behavior. Additionally, we incorporate\ndistributed tracing. This enables developers to understand how, for example,\nthe currently handled source code behaves as a fully deployed, distributed\nsoftware system. Our visualization approach enhances common remote pair\nprogramming tools and is collaboratively usable by employing shared code\ncities. As a result, user interactions are synchronized between code editor and\nvisualization, as well as broadcasted to collaborators. To the best of our\nknowledge, this is the first approach that combines code editors with\ncollaboratively usable code cities. Therefore, we conducted a user study to\ncollect first-time feedback regarding the perceived usefulness and perceived\nusability of our approach. We additionally collected logging information to\nprovide more data regarding time spent in code cities that are embedded in code\neditors. Seven teams with two students each participated in that study. The\nresults show that the majority of participants find our approach useful and\nwould employ it for their own use. We provide each participant's video\nrecording, raw results, and all steps to reproduce our experiment as\nsupplementary package.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:35:40 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Krause-Glau","Alexander",""],["Hasselbring","Wilhelm",""]]}
+{"id":"2308.15786","submitter":"Zijian Li","authors":"Zijian Li, Zehong Lin, Jiawei Shao, Yuyi Mao, Jun Zhang","title":"FedCiR: Client-Invariant Representation Learning for Federated Non-IID\n Features","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Federated learning (FL) is a distributed learning paradigm that maximizes the\npotential of data-driven models for edge devices without sharing their raw\ndata. However, devices often have non-independent and identically distributed\n(non-IID) data, meaning their local data distributions can vary significantly.\nThe heterogeneity in input data distributions across devices, commonly referred\nto as the feature shift problem, can adversely impact the training convergence\nand accuracy of the global model. To analyze the intrinsic causes of the\nfeature shift problem, we develop a generalization error bound in FL, which\nmotivates us to propose FedCiR, a client-invariant representation learning\nframework that enables clients to extract informative and client-invariant\nfeatures. Specifically, we improve the mutual information term between\nrepresentations and labels to encourage representations to carry essential\nclassification knowledge, and diminish the mutual information term between the\nclient set and representations conditioned on labels to promote representations\nof clients to be client-invariant. We further incorporate two regularizers into\nthe FL framework to bound the mutual information terms with an approximate\nglobal representation distribution to compensate for the absence of the\nground-truth global representation distribution, thus achieving informative and\nclient-invariant feature extraction. To achieve global representation\ndistribution approximation, we propose a data-free mechanism performed by the\nserver without compromising privacy. Extensive experiments demonstrate the\neffectiveness of our approach in achieving client-invariant representation\nlearning and solving the data heterogeneity issue.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:36:32 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Li","Zijian",""],["Lin","Zehong",""],["Shao","Jiawei",""],["Mao","Yuyi",""],["Zhang","Jun",""]]}
+{"id":"2308.15787","submitter":"Lars Hupel","authors":"Lars Hupel and Makan Rafiee","title":"How does post-quantum cryptography affect Central Bank Digital Currency?","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Central Bank Digital Currency (CBDC) is an emerging trend in digital\npayments, with the vast majority of central banks around the world researching,\npiloting, or even operating a digital version of cash. While design choices\ndiffer broadly, such as accounts vs. tokens, the wallets are generally\nprotected through cryptographic algorithms that safeguard against double\nspending and ensure non-repudiation. But with the advent of quantum computing,\nthese algorithms are threatened by new attack vectors. To better understand\nthose threats, we conducted a study of typical assets in a CBDC system,\ndescribe which ones are most amenable to post-quantum cryptography, and propose\nan upgrade strategy.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:44:20 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Hupel","Lars",""],["Rafiee","Makan",""]]}
+{"id":"2308.15788","submitter":"Haruki Mitarai","authors":"Haruki Mitarai and Yoshihiko Hasegawa","title":"Quantum synchronization of qubits via dynamical Casimir effect","comments":"10 pages, 5 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Following the groundbreaking observation of the dynamical Casimir effect in\n2011, the exploration of the dynamical Casimir effect in superconducting\ncircuits has garnered significant attention. In this paper, we investigate the\nsynchronization of qubits induced by the dynamical Casimir effect. Our\ninvestigation revolves around a pragmatic configuration of a quantum system,\nwhere superconducting qubits coupled with a shared coplanar waveguide\nresonator, terminated by a SQUID at one end. We identify the sufficient\ncondition required for achieving in-phase synchronization, which is expected to\nbe accomplished by generating photons in the resonator. Furthermore, we\nnumerically simulate the time evolution of the system and verify that photon\ngeneration via the dynamical Casimir effect arguably induces the\nsynchronization of two qubits. Our result suggests that photon generation by\nthe dynamical Casimir effect affects both the qubits and the resonator, and is\na fruitful resource for the control of quantum systems. In addition, we unveil\na remarkable feature that is probably unique to the dynamical Casimir effect:\nThe differences in initial states and coupling strengths affect the\nsynchronization independently with no overlap between them.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:45:22 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Mitarai","Haruki",""],["Hasegawa","Yoshihiko",""]]}
+{"id":"2308.15789","submitter":"Shijie Pan","authors":"Shijie Pan, Sajjad Maleki, Subhash Lakshminarayana, Charalambos\n Konstantinou","title":"Optimal Placement and Power Supply of Distributed Generation to Minimize\n Power Losses","comments":"2023 IEEE International Conference on Communications, Control, and\n Computing Technologies for Smart Grids (SmartGridComm)","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SY cs.SY","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" An increasing number of renewable energy-based distribution generation (DG)\nunits are being deployed in electric distribution systems. Therefore, it is of\nparamount importance to optimize the installation locations as well as the\npower supply of these DGs. The placement of DGs in the grid can decrease the\ntotal distance that power is transmitted and thus reduce power losses.\nAdditionally, the reactive power supply from the DGs can further reduce power\nlosses in the distribution grid and improve power transmission efficiency. This\npaper presents a two-stage optimization strategy to minimize power losses. In\nthe first stage, the DG locations and active power supply that minimize the\npower losses are determined. The second optimization stage identifies the\noptimal reactive power output of the DGs according to different load demands.\nThe proposed approach is tested on the IEEE 15-bus and the IEEE 33-bus systems\nusing DIgSILENT PowerFactory. The results show that the optimized power losses\ncan be reduced from 58.77 kW to 3.6 kW in the 15-bus system, and from 179.46 kW\nto around 5 kW in the 33-bus system. Moreover, with the proposed optimization\nstrategy, voltage profiles can be maintained at nominal values enabling the\ndistribution grid to support higher load demand.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:45:57 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Pan","Shijie",""],["Maleki","Sajjad",""],["Lakshminarayana","Subhash",""],["Konstantinou","Charalambos",""]]}
+{"id":"2308.15790","submitter":"Tomoki Fujii","authors":"Tomoki Fujii, Naoyuki Koike","title":"Translators invariant under hyperpolar actions","comments":"13 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.DG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper, we consider translators (for the mean curvature flow) given by\na graph of a function on a symmetric space $G/K$ of compact type which is\ninvariant under a hyperpolar action on $G/K$. First, in the case of\n$G/K=SO(n+1)/SO(n)$, $SU(n+1)/S(U(1)\\times U(n))$, $Sp(n+1)/(Sp(1)\\times\nSp(n))$ or $F_4/{\\rm Spin}(9)$, we classify the shapes of translators in\n$G/K\\times\\mathbb R$ given by the graphs of functions on $G/K$ which are\ninvariant under the isotropy action $K\\curvearrowright G/K$. Next, in the case\nwhere $G/K$ is of higher rank, we investigate translators in $G/K\\times\\mathbb\nR$ given by the graphs of functions on $G/K$ which are invariant under a\nhyperpolar action $H\\curvearrowright G/K$ of cohomogeneity two.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:47:16 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Fujii","Tomoki",""],["Koike","Naoyuki",""]]}
+{"id":"2308.15791","submitter":"Yeongwoong Kim","authors":"Yeongwoong Kim, Suyong Bahk, Seungeon Kim, Won Hee Lee, Dokwan Oh, Hui\n Yong Kim","title":"Neural Video Compression with Temporal Layer-Adaptive Hierarchical\n B-frame Coding","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV eess.IV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Neural video compression (NVC) is a rapidly evolving video coding research\narea, with some models achieving superior coding efficiency compared to the\nlatest video coding standard Versatile Video Coding (VVC). In conventional\nvideo coding standards, the hierarchical B-frame coding, which utilizes a\nbidirectional prediction structure for higher compression, had been\nwell-studied and exploited. In NVC, however, limited research has investigated\nthe hierarchical B scheme. In this paper, we propose an NVC model exploiting\nhierarchical B-frame coding with temporal layer-adaptive optimization. We first\nextend an existing unidirectional NVC model to a bidirectional model, which\nachieves -21.13% BD-rate gain over the unidirectional baseline model. However,\nthis model faces challenges when applied to sequences with complex or large\nmotions, leading to performance degradation. To address this, we introduce\ntemporal layer-adaptive optimization, incorporating methods such as temporal\nlayer-adaptive quality scaling (TAQS) and temporal layer-adaptive latent\nscaling (TALS). The final model with the proposed methods achieves an\nimpressive BD-rate gain of -39.86% against the baseline. It also resolves the\nchallenges in sequences with large or complex motions with up to -49.13% more\nBD-rate gains than the simple bidirectional extension. This improvement is\nattributed to the allocation of more bits to lower temporal layers, thereby\nenhancing overall reconstruction quality with smaller bits. Since our method\nhas little dependency on a specific NVC model architecture, it can serve as a\ngeneral tool for extending unidirectional NVC models to the ones with\nhierarchical B-frame coding.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:49:34 GMT"},{"version":"v2","created":"Thu, 31 Aug 2023 00:46:47 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Kim","Yeongwoong",""],["Bahk","Suyong",""],["Kim","Seungeon",""],["Lee","Won Hee",""],["Oh","Dokwan",""],["Kim","Hui Yong",""]]}
+{"id":"2308.15792","submitter":"Laurent Cantier","authors":"Laurent Cantier and Eduard Vilalta","title":"Fra\\\"iss\\'e Theory for Cuntz semigroups","comments":"39 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.OA math.CT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We introduce a Fra\\\"iss\\'e theory for abstract Cuntz semigroups akin to the\ntheory of Fra\\\"iss\\'e categories developed by Kubi\\'s. In particular, we show\nthat any (Cuntz) Fra\\\"iss\\'e category has a unique Fra\\\"iss\\'e limit which is\nboth universal and homogeneous. We also give several examples of such\ncategories and compute their Fra\\\"iss\\'e limits. During our investigations, we\ndevelop a general theory of Cauchy sequences and intertwinings in the category\nCu.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:52:08 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Cantier","Laurent",""],["Vilalta","Eduard",""]]}
+{"id":"2308.15793","submitter":"Sabina Abdullayeva","authors":"Anton Kabaev, Pavel Podberezko, Andrey Kaznacheev, Sabina Abdullayeva","title":"HAlf-MAsked Model for Named Entity Sentiment analysis","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Named Entity Sentiment analysis (NESA) is one of the most actively developing\napplication domains in Natural Language Processing (NLP). Social media NESA is\na significant field of opinion analysis since detecting and tracking sentiment\ntrends in the news flow is crucial for building various analytical systems and\nmonitoring the media image of specific people or companies. In this paper, we\nstudy different transformers-based solutions NESA in RuSentNE-23 evaluation.\nDespite the effectiveness of the BERT-like models, they can still struggle with\ncertain challenges, such as overfitting, which appeared to be the main obstacle\nin achieving high accuracy on the RuSentNE-23 data. We present several\napproaches to overcome this problem, among which there is a novel technique of\nadditional pass over given data with masked entity before making the final\nprediction so that we can combine logits from the model when it knows the exact\nentity it predicts sentiment for and when it does not. Utilizing this\ntechnique, we ensemble multiple BERT- like models trained on different subsets\nof data to improve overall performance. Our proposed model achieves the best\nresult on RuSentNE-23 evaluation data and demonstrates improved consistency in\nentity-level sentiment analysis.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:53:24 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kabaev","Anton",""],["Podberezko","Pavel",""],["Kaznacheev","Andrey",""],["Abdullayeva","Sabina",""]]}
+{"id":"2308.15794","submitter":"Micha{\\l} Marczenko","authors":"Volker Koch, Micha{\\l} Marczenko, Krzysztof Redlich, Chihiro Sasaki","title":"Fluctuations and correlations of baryonic chiral partners","comments":"arXiv admin note: substantial text overlap with arXiv:2301.09866","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph nucl-th","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Fluctuations and correlations of the net-baryon number play an important role\nin exploring critical phenomena in phase transitions of strongly interacting\nmatter governed by Quantum chromodynamics (QCD). In this work, we use the\nparity doublet model to investigate the fluctuations of the net-baryon number\ndensity in hot and dense hadronic matter. The model accounts for chiral\ncriticality within the mean-field approximation. We focus on the qualitative\nproperties and systematics of the first- and second-order susceptibility of the\nnet-baryon number density, and their ratios for nucleons of positive and\nnegative parity, as well as their correlator. We show that the fluctuations of\nthe positive-parity nucleon do not necessarily reflect the fluctuations of the\ntotal net-baryon number density at the phase boundary of the chiral phase\ntransition. We also investigate the non-trivial structure of the correlator.\nFurthermore, we discuss and quantify the differences between the fluctuations\nof the net-baryon number density in the vicinity of the chiral and liquid-gas\nphase transition in nuclear matter. We indicate a possible relevance of our\nresults with the interpretation of the experimental data on net-proton number\nfluctuations in heavy-ion collisions.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:56:38 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Koch","Volker",""],["Marczenko","Micha\u0142",""],["Redlich","Krzysztof",""],["Sasaki","Chihiro",""]]}
+{"id":"2308.15795","submitter":"Qingyao Wu","authors":"Yukun Su, Ruizhou Sun, Xin Shu, Yu Zhang, Qingyao Wu","title":"Occlusion-Aware Detection and Re-ID Calibrated Network for Multi-Object\n Tracking","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Multi-Object Tracking (MOT) is a crucial computer vision task that aims to\npredict the bounding boxes and identities of objects simultaneously. While\nstate-of-the-art methods have made remarkable progress by jointly optimizing\nthe multi-task problems of detection and Re-ID feature learning, yet, few\napproaches explore to tackle the occlusion issue, which is a long-standing\nchallenge in the MOT field. Generally, occluded objects may hinder the detector\nfrom estimating the bounding boxes, resulting in fragmented trajectories. And\nthe learned occluded Re-ID embeddings are less distinct since they contain\ninterferer. To this end, we propose an occlusion-aware detection and Re-ID\ncalibrated network for multi-object tracking, termed as ORCTrack. Specifically,\nwe propose an Occlusion-Aware Attention (OAA) module in the detector that\nhighlights the object features while suppressing the occluded background\nregions. OAA can serve as a modulator that enhances the detector for some\npotentially occluded objects. Furthermore, we design a Re-ID embedding matching\nblock based on the optimal transport problem, which focuses on enhancing and\ncalibrating the Re-ID representations through different adjacent frames\ncomplementarily. To validate the effectiveness of the proposed method,\nextensive experiments are conducted on two challenging VisDrone2021-MOT and\nKITTI benchmarks. Experimental evaluations demonstrate the superiority of our\napproach, which can achieve new state-of-the-art performance and enjoy high\nrun-time efficiency.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:56:53 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Su","Yukun",""],["Sun","Ruizhou",""],["Shu","Xin",""],["Zhang","Yu",""],["Wu","Qingyao",""]]}
+{"id":"2308.15796","submitter":"Zuxing Yang","authors":"Zu-Xing Yang, Xiao-Hua Fan, Zhi-Pan Li, Shunji Nishimura","title":"A Neural Network Approach for Orienting Heavy-Ion Collision Events","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"nucl-th","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" A convolutional neural network-based classifier is elaborated to retrace the\ninitial orientation of deformed nucleus-nucleus collisions by integrating\nmultiple typical experimental observables. The isospin-dependent\nBoltzmann-Uehling-Uhlenbeck transport model is employed to generate data for\nrandom orientations of ultra-central uranium-uranium collisions at\n$E_\\text{beam} = 1\\,\n \\text{GeV/nucleon}$. Given the existence of pronounced fluctuations and the\nimpact of spectators in specific scenarios, the classifier still encounters a\nnon-neglectable accuracy loss. Statistically, the data-driven polarization\nscheme is essentially accomplished via the classifier, whose distinct\ncategories filter out specific orientation-biased collision events. This will\nadvance the studies on nuclear symmetry energy, neutron skin, and the\nhigh-momentum tail of deformed nuclei.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 06:58:46 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Yang","Zu-Xing",""],["Fan","Xiao-Hua",""],["Li","Zhi-Pan",""],["Nishimura","Shunji",""]]}
+{"id":"2308.15797","submitter":"Mohd Asim Aftab","authors":"Mohd Asim Aftab, Astha Chawla, Pedro P. Vergara, Shehab Ahmed,\n Charalambos Konstantinou","title":"Volt/VAR Optimization in the Presence of Attacks: A Real-Time\n Co-Simulation Study","comments":"2023 IEEE International Conference on Communications, Control, and\n Computing Technologies for Smart Grids (SmartGridComm)","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SY cs.SY","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Traditionally, Volt/VAR optimization (VVO) is performed in distribution\nnetworks through legacy devices such as on-load tap changers (OLTCs), voltage\nregulators (VRs), and capacitor banks. With the amendment in IEEE 1547\nstandard, distributed energy resources (DERs) can now provide reactive power\nsupport to the grid. For this, renewable energy-based DERs, such as PV, are\ninterfaced with the distribution networks through smart inverters (SIs). Due to\nthe intermittent nature of such resources, VVO transforms into a dynamic\nproblem that requires extensive communication between the VVO controller and\ndevices performing the VVO scheme. This communication, however, can be\npotentially tampered with by an adversary rendering the VVO ineffective. In\nthis regard, it is important to assess the impact of cyberattacks on the VVO\nscheme. This paper develops a real-time co-simulation setup to assess the\neffect of cyberattacks on VVO. The setup consists of a real-time power system\nsimulator, a communication network emulator, and a master controller in a\nsystem-in-the-loop (SITL) setup. The DNP3 communication protocol is adopted for\nthe underlying communication infrastructure. The results show that corrupted\ncommunication messages can lead to violation of voltage limits, increased\nnumber of setpoint updates of VRs, and economic loss.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:05:10 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Aftab","Mohd Asim",""],["Chawla","Astha",""],["Vergara","Pedro P.",""],["Ahmed","Shehab",""],["Konstantinou","Charalambos",""]]}
+{"id":"2308.15798","submitter":"Midhun Augustine","authors":"Midhun T. Augustine","title":"A Note on Linear Quadratic Regulator and Kalman Filter","comments":"12 pages, 4 figures, tutorial article","journal-ref":null,"doi":null,"report-no":null,"categories":"math.OC cs.SY eess.SY","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Two central problems in modern control theory are the controller design\nproblem: which deals with designing a control law for the dynamical system, and\nthe state estimation problem (observer design problem): which deals with\ncomputing an estimate of the states of the dynamical system. The Linear\nQuadratic Regulator (LQR) and Kalman Filter (KF) solves these problems\nrespectively for linear dynamical systems in an optimal manner, i.e., LQR is an\noptimal state feedback controller and KF is an optimal state estimator. In this\nnote, we will be discussing the basic concepts, derivation, steady-state\nanalysis, and numerical implementation of the LQR and KF.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:10:24 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Augustine","Midhun T.",""]]}
+{"id":"2308.15799","submitter":"Hui Chen","authors":"Hui Chen, Musa Furkan Keskin, Adham Sakhnini, Nicol\\'o Decarli, Sofie\n Pollin, Davide Dardari, Henk Wymeersch","title":"6G Localization and Sensing in the Near Field: Fundamentals,\n Opportunities, and Challenges","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IT eess.SP math.IT","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The far-field channel model has historically been used in wireless\ncommunications due to the simplicity of mathematical modeling and convenience\nfor algorithm design, and its validity for relatively small array apertures.\nWith the need for high data rates, low latency, and ubiquitous connectivity in\nthe sixth generation (6G) of communication systems, new technology enablers\nsuch as extremely large antenna arrays (ELAA), reconfigurable intelligent\nsurfaces (RISs), and distributed multiple-input-multiple-output (D-MIMO)\nsystems will be adopted. These enablers not only aim to improve communication\nservices but also have an impact on localization and sensing (L\\&S), which are\nexpected to be integrated into future wireless systems. Despite appearing in\ndifferent scenarios and supporting different frequency bands, these enablers\nshare the so-called near-field (NF) features, which will provide extra\ngeometric information. In this work, starting from a brief description of NF\nchannel features, we highlight the opportunities and challenges for 6G NF L\\&S.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:10:26 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Chen","Hui",""],["Keskin","Musa Furkan",""],["Sakhnini","Adham",""],["Decarli","Nicol\u00f3",""],["Pollin","Sofie",""],["Dardari","Davide",""],["Wymeersch","Henk",""]]}
+{"id":"2308.15800","submitter":"Shuichiro Takeda","authors":"Shuichiro Takeda","title":"Dual groups of symmetric varieties and distinguished representations of\n $p$-adic groups","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.RT math.NT","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Let $X=H\\backslash G$ be a symmetric variety over a $p$-adic field. Assume\n$G$ is split. In this paper, we construct a complex group $G_X^\\vee$, which we\ncall the dual group of $X$, and a natural homomorphism\n$\\varphi_X^\\vee:G_X^\\vee\\times\\operatorname{SL}_2(\\mathbb{C})\\to G^\\vee$, where\n$G^\\vee$ is the Langlands dual group of $G$, and make a few conjectures on how\n$\\varphi_X^\\vee$ is related to $H$-distinguished representations of $G$. We\nwill also show that the local Langlands parameter of the trivial representation\nof $G$ factors through $\\varphi_X^\\vee$ for any symmetric variety\n$X=H\\backslash G$.\n Our group $G_X^\\vee$ is different from the dual group by\nSakellaridis-Venkatesh. However, we will show that our conjectures are\nconsistent with various known examples and conjectures, especially in the\nframework of the theory of Kato-Takano on relative cuspidality and relative\nsquare integrability.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:10:30 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Takeda","Shuichiro",""]]}
+{"id":"2308.15801","submitter":"Sebastian Rickelhoff","authors":"Sebastian Rickelhoff and Alexander Schnurr","title":"The Time-Dependent Symbol of a Non-Homogeneous It\\^o Process and\n corresponding Maximal Inequalities","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.PR","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" The probabilistic symbol is defined as the right-hand side derivative at time\nzero of the characteristic functions corresponding to the one-dimensional\nmarginals of a time-homogeneous stochastic process. As described in various\ncontributions to this topic, the symbol contains crucial information concerning\nthe process. When leaving time-homogeneity behind, a modification of the symbol\nby inserting a time component is needed. In the present article we show the\nexistence of such a time-dependent symbol for non-homogeneous It\\^o processes.\nMoreover, for this class of processes we derive maximal inequalities which we\napply to generalize the Blumenthal-Getoor indices to the non-homogeneous case.\nThese are utilized to derive several properties regarding the paths of the\nprocess, including the asymptotic behavior of the sample patsh, the existence\nof exponential moments and the finiteness of p-variation. In contrast to many\nsituations where non-homogeneous Markov processes are involved, the space-time\nprocess cannot be utilized when considering maximal inequalities.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:11:08 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Rickelhoff","Sebastian",""],["Schnurr","Alexander",""]]}
+{"id":"2308.15802","submitter":"Junjie Zhang","authors":"Yangkun Chen, Joseph Suarez, Junjie Zhang, Chenghui Yu, Bo Wu, Hanmo\n Chen, Hengman Zhu, Rui Du, Shanliang Qian, Shuai Liu, Weijun Hong, Jinke He,\n Yibing Zhang, Liang Zhao, Clare Zhu, Julian Togelius, Sharada Mohanty, Jiaxin\n Chen, Xiu Li, Xiaolong Zhu, Phillip Isola","title":"Benchmarking Robustness and Generalization in Multi-Agent Systems: A\n Case Study on Neural MMO","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We present the results of the second Neural MMO challenge, hosted at IJCAI\n2022, which received 1600+ submissions. This competition targets robustness and\ngeneralization in multi-agent systems: participants train teams of agents to\ncomplete a multi-task objective against opponents not seen during training. The\ncompetition combines relatively complex environment design with large numbers\nof agents in the environment. The top submissions demonstrate strong success on\nthis task using mostly standard reinforcement learning (RL) methods combined\nwith domain-specific engineering. We summarize the competition design and\nresults and suggest that, as an academic community, competitions may be a\npowerful approach to solving hard problems and establishing a solid benchmark\nfor algorithms. We will open-source our benchmark including the environment\nwrapper, baselines, a visualization tool, and selected policies for further\nresearch.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:16:11 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Chen","Yangkun",""],["Suarez","Joseph",""],["Zhang","Junjie",""],["Yu","Chenghui",""],["Wu","Bo",""],["Chen","Hanmo",""],["Zhu","Hengman",""],["Du","Rui",""],["Qian","Shanliang",""],["Liu","Shuai",""],["Hong","Weijun",""],["He","Jinke",""],["Zhang","Yibing",""],["Zhao","Liang",""],["Zhu","Clare",""],["Togelius","Julian",""],["Mohanty","Sharada",""],["Chen","Jiaxin",""],["Li","Xiu",""],["Zhu","Xiaolong",""],["Isola","Phillip",""]]}
+{"id":"2308.15803","submitter":"Ratnangshu Das","authors":"Ratnangshu Das and Pushpak Jagtap","title":"Funnel-based Control for Reach-Avoid-Stay Specifications","comments":"8 pages, 3 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SY eess.SY math.OC","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The paper addresses the problem of controller synthesis for control-affine\nnonlinear systems to meet reach-avoid-stay specifications. Specifically, the\ngoal of the research is to obtain a closed-form control law ensuring that the\ntrajectories of the nonlinear system, reach a target set while avoiding all\nunsafe regions and adhering to the state-space constraints. To tackle this\nproblem, we leverage the concept of the funnel-based control approach. Given an\narbitrary unsafe region, we introduce a circumvent function that guarantees the\nsystem trajectory to steer clear of that region. Subsequently, an adaptive\nfunnel framework is proposed based on the target, followed by the construction\nof a closed-form controller using the established funnel function, enforcing\nthe reach-avoid-stay specifications. To demonstrate the efficacy of the\nproposed funnel-based control approach, a series of simulation experiments have\nbeen carried out.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:16:25 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Das","Ratnangshu",""],["Jagtap","Pushpak",""]]}
+{"id":"2308.15804","submitter":"Viet Khoa Tran","authors":"Tran Viet Khoa and Do Hai Son and Chi-Hieu Nguyen and Dinh Thai Hoang\n and Diep N. Nguyen and Nguyen Linh Trung and Tran Thi Thuy Quynh and\n Trong-Minh Hoang and Nguyen Viet Ha and Eryk Dutkiewicz","title":"Securing Blockchain Systems: A Novel Collaborative Learning Framework to\n Detect Attacks in Transactions and Smart Contracts","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CR cs.DC","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" With the escalating prevalence of malicious activities exploiting\nvulnerabilities in blockchain systems, there is an urgent requirement for\nrobust attack detection mechanisms. To address this challenge, this paper\npresents a novel collaborative learning framework designed to detect attacks in\nblockchain transactions and smart contracts by analyzing transaction features.\nOur framework exhibits the capability to classify various types of blockchain\nattacks, including intricate attacks at the machine code level (e.g., injecting\nmalicious codes to withdraw coins from users unlawfully), which typically\nnecessitate significant time and security expertise to detect. To achieve that,\nthe proposed framework incorporates a unique tool that transforms transaction\nfeatures into visual representations, facilitating efficient analysis and\nclassification of low-level machine codes. Furthermore, we propose a customized\ncollaborative learning model to enable real-time detection of diverse attack\ntypes at distributed mining nodes. In order to create a comprehensive dataset,\nwe deploy a pilot system based on a private Ethereum network and conduct\nmultiple attack scenarios. To the best of our knowledge, our dataset is the\nmost comprehensive and diverse collection of transactions and smart contracts\nsynthesized in a laboratory for cyberattack detection in blockchain systems.\nOur framework achieves a detection accuracy of approximately 94\\% through\nextensive simulations and real-time experiments with a throughput of over 1,100\ntransactions per second. These compelling results validate the efficacy of our\nframework and showcase its adaptability in addressing real-world cyberattack\nscenarios.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:17:20 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Khoa","Tran Viet",""],["Son","Do Hai",""],["Nguyen","Chi-Hieu",""],["Hoang","Dinh Thai",""],["Nguyen","Diep N.",""],["Trung","Nguyen Linh",""],["Quynh","Tran Thi Thuy",""],["Hoang","Trong-Minh",""],["Ha","Nguyen Viet",""],["Dutkiewicz","Eryk",""]]}
+{"id":"2308.15805","submitter":"Valery Ugrinovskii","authors":"V. Ugrinovskii and M.R. James","title":"Design of Coherent Passive Quantum Equalizers Using Robust Control\n Theory","comments":"Submitted for publication in Automatica","journal-ref":null,"doi":null,"report-no":null,"categories":"math.OC cs.SY eess.SY quant-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The paper develops a methodology for the design of coherent equalizing\nfilters for quantum communication channels. Given a linear quantum system model\nof a quantum communication channel, the aim is to obtain another quantum system\nwhich, when coupled with the original system, mitigates degrading effects of\nthe environment. The main result of the paper is a systematic equalizer\nsynthesis algorithm which relies on methods of state-space robust control\ndesign via semidefinite programming.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:21:46 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Ugrinovskii","V.",""],["James","M. R.",""]]}
+{"id":"2308.15806","submitter":"Gabriel Mejia Dr.","authors":"Gabriel E. Mejia-Ruiz, Yazdan Batmani, Subhash Lakshminarayana, Shehab\n Ahmed, Charalambos Konstantinou","title":"Communication Reduction for Power Systems: An Observer-Based\n Event-Triggered Approach","comments":"2023 IEEE International Conference on Communications, Control, and\n Computing Technologies for Smart Grids (SmartGridComm)","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SY cs.SY","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The management of distributed and heterogeneous modern power networks\nnecessitates the deployment of communication links, often characterized by\nlimited bandwidth. This paper presents an event detection mechanism that\nsignificantly reduces the volume of data transmission to perform necessary\ncontrol actions, using a scalable scheme that enhances the stability and\nreliability of power grids. The approach relies on implementing a linear\nquadratic regulator and the execution of a pair of Luenberger observers. The\nlinear quadratic regulator minimizes the amount of energy required to achieve\nthe control actions. Meanwhile, the Luenberger observers estimate the\nunmeasured states from the sensed states, providing the necessary information\nto trigger the event detection mechanism. The effectiveness of the method is\ntested via time-domain simulations on the IEEE 13-node test feeder interfaced\nwith inverter-based distributed generation systems and the proposed\nobserved-based event-triggered controller. The results demonstrate that the\npresented control scheme guarantees the bounding of the system states to a\npre-specified limit while reducing the number of data packet transmissions by\n39.8%.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:22:06 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Mejia-Ruiz","Gabriel E.",""],["Batmani","Yazdan",""],["Lakshminarayana","Subhash",""],["Ahmed","Shehab",""],["Konstantinou","Charalambos",""]]}
+{"id":"2308.15807","submitter":"Tian-Sheuan Chang","authors":"Tun-Hao Yang, and Tian-Sheuan Chang","title":"ACNPU: A 4.75TOPS/W 1080P@30FPS Super Resolution Accelerator with\n Decoupled Asymmetric Convolution","comments":"9 pages, 14 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.IV cs.AR cs.CV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Deep learning-driven superresolution (SR) outperforms traditional techniques\nbut also faces the challenge of high complexity and memory bandwidth. This\nchallenge leads many accelerators to opt for simpler and shallow models like\nFSRCNN, compromising performance for real-time needs, especially for\nresource-limited edge devices. This paper proposes an energy-efficient SR\naccelerator, ACNPU, to tackle this challenge. The ACNPU enhances image quality\nby 0.34dB with a 27-layer model, but needs 36\\% less complexity than FSRCNN,\nwhile maintaining a similar model size, with the \\textit{decoupled asymmetric\nconvolution and split-bypass structure}. The hardware-friendly 17K-parameter\nmodel enables \\textit{holistic model fusion} instead of localized layer fusion\nto remove external DRAM access of intermediate feature maps. The on-chip memory\nbandwidth is further reduced with the \\textit{input stationary flow} and\n\\textit{parallel-layer execution} to reduce power consumption. Hardware is\nregular and easy to control to support different layers by \\textit{processing\nelements (PEs) clusters with reconfigurable input and uniform data flow}. The\nimplementation in the 40 nm CMOS process consumes 2333 K gate counts and 198KB\nSRAMs. The ACNPU achieves 31.7 FPS and 124.4 FPS for x2 and x4 scales Full-HD\ngeneration, respectively, which attains 4.75 TOPS/W energy efficiency.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:23:32 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Yang","Tun-Hao",""],["Chang","Tian-Sheuan",""]]}
+{"id":"2308.15808","submitter":"Yubin Wang","authors":"Yubin Wang, Zengqi Peng, Hakim Ghazzai, Jun Ma","title":"Learning the References of Online Model Predictive Control for Urban\n Self-Driving","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.RO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this work, we propose a novel learning-based online model predictive\ncontrol (MPC) framework for motion synthesis of self-driving vehicles. In this\nframework, the decision variables are generated as instantaneous references to\nmodulate the cost functions of online MPC, where the constraints of collision\navoidance and drivable surface boundaries are latently represented in the soft\nform. Hence, the embodied maneuvers of the ego vehicle are empowered to adapt\nto complex and dynamic traffic environments, even with unmodeled uncertainties\nof other traffic participants. Furthermore, we implement a deep reinforcement\nlearning (DRL) framework for policy search to cast the step actions as the\ndecision variables, where the practical and lightweight observations are\nconsidered as the input features of the policy network. The proposed approach\nis implemented in the high-fidelity simulator involving compound-complex urban\ndriving scenarios, and the results demonstrate that the proposed development\nmanifests remarkable adaptiveness to complex and dynamic traffic environments\nwith a success rate of 85%. Also, its advantages in terms of safety,\nmaneuverability, and robustness are illustrated.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:23:37 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Wang","Yubin",""],["Peng","Zengqi",""],["Ghazzai","Hakim",""],["Ma","Jun",""]]}
+{"id":"2308.15809","submitter":"Tianze Wei","authors":"Tianze Wei, Bo Li, Minming Li","title":"Maximin-Aware Allocations of Indivisible Chores with Symmetric and\n Asymmetric Agents","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.GT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The real-world deployment of fair allocation algorithms usually involves a\nheterogeneous population of users, which makes it challenging for the users to\nget complete knowledge of the allocation except for their own bundles. Chan et\nal. [IJCAI 2019] proposed a new fairness notion, maximin-awareness (MMA), which\nguarantees that every agent is not the worst-off one, no matter how the items\nthat are not allocated to her are distributed. We adapt and generalize this\nnotion to the case of indivisible chores and when the agents may have arbitrary\nweights. Due to the inherent difficulty of MMA, we also consider its up to one\nand up to any relaxations. A string of results on the existence and computation\nof MMA related fair allocations, and their connections to existing fairness\nconcepts is given.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:29:50 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Wei","Tianze",""],["Li","Bo",""],["Li","Minming",""]]}
+{"id":"2308.15810","submitter":"Jerome Bertrand","authors":"J\\'er\\^ome Bertrand (IMT)","title":"On the Gauss image problem","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.MG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this note, we solve the Gauss image problem given two Borel measures on\nthe unit sphere, one of which is absolutely continuous with respect to the\nuniform measure.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:31:52 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Bertrand","J\u00e9r\u00f4me","","IMT"]]}
+{"id":"2308.15811","submitter":"Ye Zhang","authors":"Sebastiano Nicolussi Golo, Ye Zhang","title":"Curvature exponent and geodesic dimension on Sard-regular Carnot groups","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.MG math.DG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper we characterize the geodesic dimension $N_{GEO}$ and give a new\nlower bound to the curvature exponent $N_{CE}$ on Sard-regular Carnot groups.\nAs an application, we give an example of step-two Carnot group on which $N_{CE}\n> N_{GEO}$: this answers a question posed by Rizzi in arXiv:1510.05960v4\n[math.MG].\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:31:54 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Golo","Sebastiano Nicolussi",""],["Zhang","Ye",""]]}
+{"id":"2308.15812","submitter":"Hritik Bansal","authors":"Hritik Bansal, John Dang, Aditya Grover","title":"Peering Through Preferences: Unraveling Feedback Acquisition for\n Aligning Large Language Models","comments":"24 pages, 12 Tables, 3 Figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI cs.CL","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Aligning large language models (LLMs) with human values and intents\ncritically involves the use of human or AI feedback. While dense feedback\nannotations are expensive to acquire and integrate, sparse feedback presents a\nstructural design choice between ratings (e.g., score Response A on a scale of\n1-7) and rankings (e.g., is Response A better than Response B?). In this work,\nwe analyze the effect of this design choice for the alignment and evaluation of\nLLMs. We uncover an inconsistency problem wherein the preferences inferred from\nratings and rankings significantly disagree 60% for both human and AI\nannotators. Our subsequent analysis identifies various facets of annotator\nbiases that explain this phenomena, such as human annotators would rate denser\nresponses higher while preferring accuracy during pairwise judgments. To our\nsurprise, we also observe that the choice of feedback protocol also has a\nsignificant effect on the evaluation of aligned LLMs. In particular, we find\nthat LLMs that leverage rankings data for alignment (say model X) are preferred\nover those that leverage ratings data (say model Y), with a rank-based\nevaluation protocol (is X/Y's response better than reference response?) but not\nwith a rating-based evaluation protocol (score Rank X/Y's response on a scale\nof 1-7). Our findings thus shed light on critical gaps in methods for\nevaluating the real-world utility of language models and their strong\ndependence on the feedback protocol used for alignment. Our code and data are\navailable at https://github.com/Hritikbansal/sparse_feedback.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:35:32 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Bansal","Hritik",""],["Dang","John",""],["Grover","Aditya",""]]}
+{"id":"2308.15813","submitter":"Anthony Colas","authors":"Anthony Colas, Jun Araki, Zhengyu Zhou, Bingqing Wang, Zhe Feng","title":"Knowledge-grounded Natural Language Recommendation Explanation","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL cs.IR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Explanations accompanied by a recommendation can assist users in\nunderstanding the decision made by recommendation systems, which in turn\nincreases a user's confidence and trust in the system. Recently, research has\nfocused on generating natural language explanations in a human-readable format.\nThus far, the proposed approaches leverage item reviews written by users, which\nare often subjective, sparse in language, and unable to account for new items\nthat have not been purchased or reviewed before. Instead, we aim to generate\nfact-grounded recommendation explanations that are objectively described with\nitem features while implicitly considering a user's preferences, based on the\nuser's purchase history. To achieve this, we propose a knowledge graph (KG)\napproach to natural language explainable recommendation. Our approach draws on\nuser-item features through a novel collaborative filtering-based KG\nrepresentation to produce fact-grounded, personalized explanations, while\njointly learning user-item representations for recommendation scoring.\nExperimental results show that our approach consistently outperforms previous\nstate-of-the-art models on natural language explainable recommendation.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:36:12 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Colas","Anthony",""],["Araki","Jun",""],["Zhou","Zhengyu",""],["Wang","Bingqing",""],["Feng","Zhe",""]]}
+{"id":"2308.15814","submitter":"Antoine Mouzard","authors":"Quentin Chauleur (LPP, Paradyse), Antoine Mouzard (LPENSL, IRMAR,\n MINGUS)","title":"The logarithmic Schr{\\\"o}dinger equation with spatial white noise on the\n full space","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.AP math.PR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We solve the Schr{\\\"o}dinger equation with logarithmic nonlinearity and\nmultiplicative spatial white noise on R d with d $\\le$ 2. Because of the\nnonlinearity, the regularity structures and the paracontrolled calculus can not\nbe used. To solve the equation, we rely on an exponential transform that has\nproven useful in the context of other singular SPDEs.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:37:30 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Chauleur","Quentin","","LPP, Paradyse"],["Mouzard","Antoine","","LPENSL, IRMAR,\n MINGUS"]]}
+{"id":"2308.15815","submitter":"Peizhe Li","authors":"Pei-Zhe Li, Josephine Dias, William J. Munro, Peter van Loock, Kae\n Nemoto, and Nicol\\'o Lo Piparo","title":"Performance of Rotation-Symmetric Bosonic Codes in a Quantum Repeater\n Network","comments":"10 pages, 7 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Quantum error correction codes based on continuous variables play an\nimportant role for the implementation of quantum communication systems. A\nnatural application of such codes occurs within quantum repeater systems which\nare used to combat severe channel losses and local gate errors. In particular,\nchannel loss drastically reduces the distance of communication between remote\nusers. Here we consider a cavity-QED based repeater scheme to address the\nlosses in the quantum channel. This repeater scheme relies on the transmission\nof a specific class of rotationally invariant error-correcting codes. We\ncompare several rotation-symmetric bosonic codes (RSBCs) being used to encode\nthe initial states of two remote users connected by a quantum repeater network\nagainst the convention of the cat codes and we quantify the performance of the\nsystem using the secret key rate. In particular, we determine the number of\nstations required to exchange a secret key over a fixed distance and establish\nthe resource overhead.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:39:11 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Li","Pei-Zhe",""],["Dias","Josephine",""],["Munro","William J.",""],["van Loock","Peter",""],["Nemoto","Kae",""],["Piparo","Nicol\u00f3 Lo",""]]}
+{"id":"2308.15816","submitter":"Sajid Javed Dr","authors":"Basit Alawode, Fayaz Ali Dharejo, Mehnaz Ummar, Yuhang Guo, Arif\n Mahmood, Naoufel Werghi, Fahad Shahbaz Khan, Jiri Matas, Sajid Javed","title":"Improving Underwater Visual Tracking With a Large Scale Dataset and\n Image Enhancement","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" This paper presents a new dataset and general tracker enhancement method for\nUnderwater Visual Object Tracking (UVOT). Despite its significance, underwater\ntracking has remained unexplored due to data inaccessibility. It poses distinct\nchallenges; the underwater environment exhibits non-uniform lighting\nconditions, low visibility, lack of sharpness, low contrast, camouflage, and\nreflections from suspended particles. Performance of traditional tracking\nmethods designed primarily for terrestrial or open-air scenarios drops in such\nconditions. We address the problem by proposing a novel underwater image\nenhancement algorithm designed specifically to boost tracking quality. The\nmethod has resulted in a significant performance improvement, of up to 5.0%\nAUC, of state-of-the-art (SOTA) visual trackers. To develop robust and accurate\nUVOT methods, large-scale datasets are required. To this end, we introduce a\nlarge-scale UVOT benchmark dataset consisting of 400 video segments and 275,000\nmanually annotated frames enabling underwater training and evaluation of deep\ntrackers. The videos are labelled with several underwater-specific tracking\nattributes including watercolor variation, target distractors, camouflage,\ntarget relative size, and low visibility conditions. The UVOT400 dataset,\ntracking results, and the code are publicly available on:\nhttps://github.com/BasitAlawode/UWVOT400.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:41:26 GMT"},{"version":"v2","created":"Thu, 31 Aug 2023 08:14:17 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Alawode","Basit",""],["Dharejo","Fayaz Ali",""],["Ummar","Mehnaz",""],["Guo","Yuhang",""],["Mahmood","Arif",""],["Werghi","Naoufel",""],["Khan","Fahad Shahbaz",""],["Matas","Jiri",""],["Javed","Sajid",""]]}
+{"id":"2308.15817","submitter":"Pierre BON","authors":"Duc-Minh Ta (XLIM-PHOT), Alberto Aguilar (XLIM-PHOT), Pierre Bon\n (XLIM-PHOT)","title":"Label-free image scanning microscopy for kHz super-resolution imaging\n and single particle tracking","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.optics physics.bio-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We report the modification of a label-free image scanning microscope (ISM) to\nperform asynchronous 2D imaging at 24kHz while keeping the lateral resolution\ngain and background rejection of a regular label-free ISM setup. Our method\nuses a resonant mirror oscillating at 12kHz for one-direction scanning and a\nchromatic line for instantaneous scanning in the other direction. We adapt\noptical photon reassignment in this scanning regime to perform fully optical\nsuper-resolution imaging. We exploit the kHz imaging capabilities of this\nconfocal imaging system for single nanoparticle tracking down to 20nm for gold\nand 50nm for silica particles as well as imaging freely moving Lactobacillus\nwith improved resolution.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:42:32 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Ta","Duc-Minh","","XLIM-PHOT"],["Aguilar","Alberto","","XLIM-PHOT"],["Bon","Pierre","","XLIM-PHOT"]]}
+{"id":"2308.15818","submitter":"Sunghan Kim","authors":"Sunghan Kim and Kaj Nystr\\\"om","title":"Higher order interpolative geometries and gradient regularity in\n evolutionary obstacle problems","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.AP","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" We prove new optimal $C^{1,\\alpha}$ regularity results for obstacle problems\ninvolving evolutionary $p$-Laplace type operators in the degenerate regime $p >\n2$. Our main results include the optimal regularity improvement at free\nboundary points in intrinsic backward $p$-paraboloids, up to the critical\nexponent, $\\alpha \\leq 2/(p-2)$, and the optimal regularity across the free\nboundaries in the full cylinders up to a universal threshold. Moreover, we\nprovide an intrinsic criterion by which the optimal regularity improvement at\nfree boundaries can be extended to the entire cylinders. An important feature\nof our analysis is that we do not impose any assumption on the time derivative\nof the obstacle. Our results are formulated in function spaces associated to\nwhat we refer to as higher order or $C^{1,\\alpha}$ intrinsic interpolative\ngeometries.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:42:58 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kim","Sunghan",""],["Nystr\u00f6m","Kaj",""]]}
+{"id":"2308.15819","submitter":"Tuukka Korhonen","authors":"Tuukka Korhonen, Matti J\\\"arvisalo","title":"SharpSAT-TD in Model Counting Competitions 2021-2023","comments":"3 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We describe SharpSAT-TD, our submission to the unweighted and weighted tracks\nof the Model Counting Competition in 2021-2023, which has won in total $6$\nfirst places in different tracks of the competition. SharpSAT-TD is based on\nSharpSAT [Thurley, SAT 2006], with the primary novel modification being the use\nof tree decompositions in the variable selection heuristic as introduced by the\nauthors in [CP 2021]. Unlike the version of SharpSAT-TD evaluated in [CP 2021],\nthe current version that is available in https://github.com/Laakeri/sharpsat-td\nfeatures also other significant modifications compared to the original\nSharpSAT, for example, a new preprocessor.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:43:12 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Korhonen","Tuukka",""],["J\u00e4rvisalo","Matti",""]]}
+{"id":"2308.15820","submitter":"Yujia Tian","authors":"Yujia Tian (1 and 2), Devesh R. Kripalani (1), Ming Xue (2), Kun Zhou\n (1) ((1) Nanyang Technological University, (2) Infineon Technologies Asia\n Pacific Pte. Ltd.)","title":"Fermi level depinning via insertion of a graphene buffer layer at the\n gold-2D tin monoxide contact","comments":"11 figures, published in 2D Materials","journal-ref":"2D Materials 10 (2023) 045015","doi":"10.1088/2053-1583/aceb05","report-no":null,"categories":"cond-mat.mtrl-sci","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Two-dimensional (2D) tin monoxide (SnO) has attracted much attention owing to\nits distinctive electronic and optical properties, which render itself suitable\nas a channel material in field effect transistors (FETs). However, upon contact\nwith metals for such applications, the Fermi level pinning effect may occur,\nwhere states are induced in its band gap by the metal, hindering its intrinsic\nsemiconducting properties. We propose the insertion of graphene at the contact\ninterface to alleviate the metal-induced gap states. By using gold (Au) as the\nelectrode material and monolayer SnO (mSnO) as the channel material, the\ngeometry, bonding strength, charge transfer and tunnel barriers of charges, and\nelectronic properties including the work function, band structure, density of\nstates, and Schottky barriers are thoroughly investigated using\nfirst-principles calculations for the structures with and without graphene to\nreveal the contact behaviours and Fermi level depinning mechanism. It has been\ndemonstrated that strong covalent bonding is formed between gold and mSnO,\nwhile the graphene interlayer forms weak van der Waals interaction with both\nmaterials, which minimises the perturbance to the band structure of mSnO. The\neffects of out-of-plane compression are also analysed to assess the performance\nof the contact under mechanical deformation, and a feasible fabrication route\nfor the heterostructure with graphene is proposed. This work systematically\nexplores the properties of the Au-mSnO contact for applications in FETs and\nprovides thorough guidance for future exploitation of 2D materials in various\nelectronic applications and for selection of buffer layers to improve\nmetal-semiconductor contact.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:45:20 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Tian","Yujia","","1 and 2"],["Kripalani","Devesh R.",""],["Xue","Ming",""],["Zhou","Kun",""]]}
+{"id":"2308.15821","submitter":"Yuxiang Fan","authors":"Hangyu Zhu, Yuxiang Fan, Zhenping Xie","title":"Federated Two Stage Decoupling With Adaptive Personalization Layers","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Federated learning has gained significant attention due to its groundbreaking\nability to enable distributed learning while maintaining privacy constraints.\nHowever, as a consequence of data heterogeneity among decentralized devices, it\ninherently experiences significant learning degradation and slow convergence\nspeed. Therefore, it is natural to employ the concept of clustering homogeneous\nclients into the same group, allowing only the model weights within each group\nto be aggregated. While most existing clustered federated learning methods\nemploy either model gradients or inference outputs as metrics for client\npartitioning, with the goal of grouping similar devices together, may still\nhave heterogeneity within each cluster. Moreover, there is a scarcity of\nresearch exploring the underlying reasons for determining the appropriate\ntiming for clustering, resulting in the common practice of assigning each\nclient to its own individual cluster, particularly in the context of highly non\nindependent and identically distributed (Non-IID) data. In this paper, we\nintroduce a two-stage decoupling federated learning algorithm with adaptive\npersonalization layers named FedTSDP, where client clustering is performed\ntwice according to inference outputs and model weights, respectively. Hopkins\namended sampling is adopted to determine the appropriate timing for clustering\nand the sampling weight of public unlabeled data. In addition, a simple yet\neffective approach is developed to adaptively adjust the personalization layers\nbased on varying degrees of data skew. Experimental results show that our\nproposed method has reliable performance on both IID and non-IID scenarios.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:46:32 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Zhu","Hangyu",""],["Fan","Yuxiang",""],["Xie","Zhenping",""]]}
+{"id":"2308.15822","submitter":"Sharun Akter Khushbu","authors":"Md. Aiyub Ali, Md. Shakhawat Hossain, Md.Kawar Hossain, Subhadra Soumi\n Sikder, Sharun Akter Khushbu, Mirajul Islam","title":"AMDNet23: A combined deep Contour-based Convolutional Neural Network and\n Long Short Term Memory system to diagnose Age-related Macular Degeneration","comments":null,"journal-ref":null,"doi":null,"report-no":"ISWA-D-23-00333","categories":"eess.IV cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In light of the expanding population, an automated framework of disease\ndetection can assist doctors in the diagnosis of ocular diseases, yields\naccurate, stable, rapid outcomes, and improves the success rate of early\ndetection. The work initially intended the enhancing the quality of fundus\nimages by employing an adaptive contrast enhancement algorithm (CLAHE) and\nGamma correction. In the preprocessing techniques, CLAHE elevates the local\ncontrast of the fundus image and gamma correction increases the intensity of\nrelevant features. This study operates on a AMDNet23 system of deep learning\nthat combined the neural networks made up of convolutions (CNN) and short-term\nand long-term memory (LSTM) to automatically detect aged macular degeneration\n(AMD) disease from fundus ophthalmology. In this mechanism, CNN is utilized for\nextracting features and LSTM is utilized to detect the extracted features. The\ndataset of this research is collected from multiple sources and afterward\napplied quality assessment techniques, 2000 experimental fundus images\nencompass four distinct classes equitably. The proposed hybrid deep AMDNet23\nmodel demonstrates to detection of AMD ocular disease and the experimental\nresult achieved an accuracy 96.50%, specificity 99.32%, sensitivity 96.5%, and\nF1-score 96.49.0%. The system achieves state-of-the-art findings on fundus\nimagery datasets to diagnose AMD ocular disease and findings effectively\npotential of our method.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:48:32 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Ali","Md. Aiyub",""],["Hossain","Md. Shakhawat",""],["Hossain","Md. Kawar",""],["Sikder","Subhadra Soumi",""],["Khushbu","Sharun Akter",""],["Islam","Mirajul",""]]}
+{"id":"2308.15823","submitter":"Jianghong Ma","authors":"Kangzhe Liu, Jianghong Ma, Shanshan Feng, Haijun Zhang, Zhao Zhang","title":"DRGame: Diversified Recommendation for Multi-category Video Games with\n Balanced Implicit Preferences","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The growing popularity of subscription services in video game consumption has\nemphasized the importance of offering diversified recommendations. Providing\nusers with a diverse range of games is essential for ensuring continued\nengagement and fostering long-term subscriptions. However, existing\nrecommendation models face challenges in effectively handling highly imbalanced\nimplicit feedback in gaming interactions. Additionally, they struggle to take\ninto account the distinctive characteristics of multiple categories and the\nlatent user interests associated with these categories. In response to these\nchallenges, we propose a novel framework, named DRGame, to obtain diversified\nrecommendation. It is centered on multi-category video games, consisting of two\n{components}: Balance-driven Implicit Preferences Learning for data\npre-processing and Clustering-based Diversified Recommendation {Module} for\nfinal prediction. The first module aims to achieve a balanced representation of\nimplicit feedback in game time, thereby discovering a comprehensive view of\nplayer interests across different categories. The second module adopts\ncategory-aware representation learning to cluster and select players and games\nbased on balanced implicit preferences, and then employs asymmetric neighbor\naggregation to achieve diversified recommendations. Experimental results on a\nreal-world dataset demonstrate the superiority of our proposed method over\nexisting approaches in terms of game diversity recommendations.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:53:27 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Liu","Kangzhe",""],["Ma","Jianghong",""],["Feng","Shanshan",""],["Zhang","Haijun",""],["Zhang","Zhao",""]]}
+{"id":"2308.15824","submitter":"Steffen Pottel","authors":"S. Pottel and K. Sibold","title":"On the Perturbative Quantization of Einstein-Hilbert Gravity Embedded in\n a Higher Derivative Model II","comments":"21 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-th","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In a previous paper we presented the renormalization of Einstein-Hilbert\ngravity under inclusion of higher derivative terms and proposed a projection\ndown to the physical state space of Einstein-Hilbert. In the present paper we\ndescribe this procedure in more detail via decomposing the original double-pole\nfield $h^{\\mu\\nu}$ in the bilinear field sector into a massless and a massive\nspin two field. Those are associated with the poles at zero mass resp. at\nnon-zero mass of $h$ in the tree approximation. We show that the massive fields\nhave no poles in higher orders hence do not correspond to particles. The\n$S$-matrix becomes thus unitary. On the way to these results we derive\nfiniteness properties which are valid in the Landau gauge. Those simplify the\nrenormalization group analysis of the model considerably. We also establish a\nrigid Weyl identity which represents a proper substitute for a Callan-Symanzik\nequation in flat spacetime.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:54:42 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Pottel","S.",""],["Sibold","K.",""]]}
+{"id":"2308.15825","submitter":"Kotaro Yamasaki","authors":"K. Yamasaki, K. Okuda, J. Kono, A. Saito, D. Mori, R. Suzuki, Y.\n Kambara, R. Hamada, S. Namba, K. Tomita, Y. Pan N. Tamura, C. Suzuki H. Okuno","title":"Development of the Thomson scattering measurement system for cascade arc\n device with indirectly heated hollow cathode","comments":"8 pages, 6 figures, 20th International Symposium on Laser-Aided\n Plasma Diagnostics (LAPD20)","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.plasm-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We have developed a Thomson scattering measurement system for the cascade arc\ndischarge device designed for the plasma window (PW) application study. The PW\nis one of the plasma application techniques that sustain the steep pressure\ngradient between high pressure (10-100 kPa) and a vacuum environment due to the\nthermal energy of the plasma. Since the plasma thermal energy is the essential\nparameter for the pressure separation capability of PW, we installed the\nThomson scattering measurement system to observe the electron density and\ntemperature within the anode and cathode of the PW for the detailed analysis of\nthe pressure separation capability. The frequency-doubled Nd:YAG laser (532 nm,\n200 mJ, 8 ns) was employed for the probe laser. The scattered light was fed to\nthe triple grating spectrometer. The notch filter between the first and second\ngrating eliminated the stray light, realizing a sufficiently high\nsignal-to-noise ratio. The Thomson scattering measurement system successfully\nobtained the electron density and temperature of the cascade arc plasma at 20\nmm downstream from the tip of the cathode. The installed system successfully\nobtained the Thomson scattering spectrum and showed that the electron density\nincreased from $2\\times10^{19} {\\rm m}^{-3}$ to $7\\times10^{19} {\\rm m}^{-3}$\nwith the discharge power, while the electron temperature was almost constant at\nabout 2 eV. The obtained data successfully contributed to the study of the\npressure separation capability of the PW.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 07:59:27 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Yamasaki","K.",""],["Okuda","K.",""],["Kono","J.",""],["Saito","A.",""],["Mori","D.",""],["Suzuki","R.",""],["Kambara","Y.",""],["Hamada","R.",""],["Namba","S.",""],["Tomita","K.",""],["Tamura","Y. Pan N.",""],["Okuno","C. Suzuki H.",""]]}
+{"id":"2308.15826","submitter":"Shengli Ma","authors":"Ji-kun Xie, Sheng-li Ma, Ya-long Ren, Shao-yan Gao, and Fu-li Li","title":"Chiral cavity-magnonic system for the unidirectional emission of a\n tunable squeezed microwave field","comments":"to appear in Phys. Rev. A","journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Unidirectional photon emission is crucial for constructing quantum networks\nand realizing scalable quantum information processing. In the present work an\nefficient scheme is developed for the unidirectional emission of a tunable\nsqueezed microwave field. Our scheme is based on a chiral cavity magnonic\nsystem, where a magnon mode in a single-crystalline yttrium iron garnet (YIG)\nsphere is selectively coupled to one of the two degenerate rotating microwave\nmodes in a torus-shaped cavity with the same chirality. With the YIG sphere\ndriven by a two-color Floquet field to induce sidebands in the magnon-photon\ncoupling, we show that the unidirectional emission of a tunable squeezed\nmicrowave field can be generated via the assistance of the dissipative magnon\nmode and a waveguide. Moreover, the direction of the proposed one-way emitter\ncan be controlled on demand by reversing the biased magnetic field. Our work\nopens up an avenue to create and manipulate one-way nonclassical microwave\nradiation field and could find potential quantum technological applications.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:02:16 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Xie","Ji-kun",""],["Ma","Sheng-li",""],["Ren","Ya-long",""],["Gao","Shao-yan",""],["Li","Fu-li",""]]}
+{"id":"2308.15827","submitter":"Muhammad Gul Zain Ali Khan","authors":"Muhammad Gul Zain Ali Khan, Muhammad Ferjad Naeem, Luc Van Gool,\n Didier Stricker, Federico Tombari, Muhammad Zeshan Afzal","title":"Introducing Language Guidance in Prompt-based Continual Learning","comments":"Accepted at ICCV 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Continual Learning aims to learn a single model on a sequence of tasks\nwithout having access to data from previous tasks. The biggest challenge in the\ndomain still remains catastrophic forgetting: a loss in performance on seen\nclasses of earlier tasks. Some existing methods rely on an expensive replay\nbuffer to store a chunk of data from previous tasks. This, while promising,\nbecomes expensive when the number of tasks becomes large or data can not be\nstored for privacy reasons. As an alternative, prompt-based methods have been\nproposed that store the task information in a learnable prompt pool. This\nprompt pool instructs a frozen image encoder on how to solve each task. While\nthe model faces a disjoint set of classes in each task in this setting, we\nargue that these classes can be encoded to the same embedding space of a\npre-trained language encoder. In this work, we propose Language Guidance for\nPrompt-based Continual Learning (LGCL) as a plug-in for prompt-based methods.\nLGCL is model agnostic and introduces language guidance at the task level in\nthe prompt pool and at the class level on the output feature of the vision\nencoder. We show with extensive experimentation that LGCL consistently improves\nthe performance of prompt-based continual learning methods to set a new\nstate-of-the art. LGCL achieves these performance improvements without needing\nany additional learnable parameters.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:03:49 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Khan","Muhammad Gul Zain Ali",""],["Naeem","Muhammad Ferjad",""],["Van Gool","Luc",""],["Stricker","Didier",""],["Tombari","Federico",""],["Afzal","Muhammad Zeshan",""]]}
+{"id":"2308.15828","submitter":"Camiel Beckers","authors":"Camiel Beckers (1), Erik Hoedemaekers (1), Arda Dagkilic (2), Henk Jan\n Bergveld (3 and 4) ((1) TNO - Powertrains Dept., (2) VDL Enabling Transport\n Solutions, (3) Eindhoven University of Technology - Dept. of Electrical\n Engineering, (4) NXP Semiconductors)","title":"Round-Trip Energy Efficiency and Energy-Efficiency Fade Estimation for\n Battery Passport","comments":"6 pages, 5 figures, to be presented at VPPC 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SY cs.SY","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The battery passport is proposed as a method to make the use and remaining\nvalue of batteries more transparent. The future EU Battery Directive requests\nthis passport to contain the round-trip energy efficiency and its fade. In this\npaper, an algorithm is presented and demonstrated that estimates the round-trip\nenergy efficiency of a battery pack. The algorithm identifies round trips based\non battery current and SoC and characterizes these round trips based on certain\nconditions. 2D efficiency maps are created as a function of the conditions\n`temperature' and `RMS C-rate'. The maps are parameterized using multiple\nlinear regression, which allows comparison of the efficiency under the same\nconditions. Analyzing data from three battery-electric buses over a period of\n3.5 years reveals an efficiency fade of up to 0.86 percent point.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:05:58 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Beckers","Camiel","","3 and 4"],["Hoedemaekers","Erik","","3 and 4"],["Dagkilic","Arda","","3 and 4"],["Bergveld","Henk Jan","","3 and 4"]]}
+{"id":"2308.15829","submitter":"Wadii Boulila Prof.","authors":"Wadii Boulila, Ayyub Alzahem, Anis Koubaa, Bilel Benjdira, Adel Ammar","title":"Early Detection of Red Palm Weevil Infestations using Deep Learning\n Classification of Acoustic Signals","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV cs.AI","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The Red Palm Weevil (RPW), also known as the palm weevil, is considered among\nthe world's most damaging insect pests of palms. Current detection techniques\ninclude the detection of symptoms of RPW using visual or sound inspection and\nchemical detection of volatile signatures generated by infested palm trees.\nHowever, efficient detection of RPW diseases at an early stage is considered\none of the most challenging issues for cultivating date palms. In this paper,\nan efficient approach to the early detection of RPW is proposed. The proposed\napproach is based on RPW sound activities being recorded and analyzed. The\nfirst step involves the conversion of sound data into images based on a\nselected set of features. The second step involves the combination of images\nfrom the same sound file but computed by different features into a single\nimage. The third step involves the application of different Deep Learning (DL)\ntechniques to classify resulting images into two classes: infested and not\ninfested. Experimental results show good performances of the proposed approach\nfor RPW detection using different DL techniques, namely MobileNetV2,\nResNet50V2, ResNet152V2, VGG16, VGG19, DenseNet121, DenseNet201, Xception, and\nInceptionV3. The proposed approach outperformed existing techniques for public\ndatasets.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:09:40 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Boulila","Wadii",""],["Alzahem","Ayyub",""],["Koubaa","Anis",""],["Benjdira","Bilel",""],["Ammar","Adel",""]]}
+{"id":"2308.15830","submitter":"Sang Pyo Kim","authors":"Chul Min Kim, Sang Pyo Kim","title":"Schwinger Pair Production and Vacuum Birefringence around High\n Magnetized Neutron Stars","comments":"13 pages, 6 figures; Talk at the Fifth Zeldovich meeting, an\n international conference in honor of Ya. B. Zeldovich held in Yerevan,\n Armenia on June 12--16, 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.HE hep-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Highly magnetized neutron stars have magnetic fields of order of the critical\nfield and can lead to measurable QED effects. We consider the Goldreich-Julian\npulsar model with supercritical magnetic fields, induced subcritical electric\nfields, and a period of milliseconds. We then study the strong field physics,\nsuch as Schwinger pair production and the vacuum birefringence including the\nwrench effect, whose X-ray polarimetry will be observed in future space\nmissions.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:11:03 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kim","Chul Min",""],["Kim","Sang Pyo",""]]}
+{"id":"2308.15831","submitter":"Wei Wang","authors":"Shihong Zhan, Wei Wang","title":"A Dual-Zone Diffusion Model for High Energy Emissions of the Cygnus\n Cocoon","comments":"7 pages, 5 figures, MNRAS in press","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.HE","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" As one of the brightest galactic ${\\gamma}$-ray sources, the Cygnus Cocoon\nsuperbubble has been observed by many detectors, such as $Fermi$-LAT, ARGO,\nHAWC, and LHAASO. However, the origin of $\\gamma$-ray emission for the Cygnus\nCocoon and the possible contribution to PeV cosmic rays are still under debate.\nThe recent ultrahigh-energy $\\gamma$-ray observations by LHAASO up to 1.4 PeV\ntowards the direction of the Cygnus Cocoon, as well as the neutrino event\nreport of IceCube-201120A coming from the same direction, suggest that the\nCygnus Cocoon may be one of the sources of high-energy cosmic rays in the\nGalaxy. In this work, we propose a dual-zone diffusion model for the Cygnus\nCocoon: the cocoon region and surrounding interstellar medium (ISM). This\nscenario can account for the $\\gamma$-ray data from GeV to $\\sim$ 50 TeV and\nagree with the one sub-PeV neutrino event result from IceCube so far. Moreover,\nit predict a non-negligible contribution $\\gamma$-ray emission at hundreds TeV\nfrom the ISM surrounding the Cygnus Cocoon. This possible diffuse TeV-PeV\ngamma-ray features can be resolved by the future LHAASO observations.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:11:54 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Zhan","Shihong",""],["Wang","Wei",""]]}
+{"id":"2308.15832","submitter":"Masashi Aiko","authors":"Masashi Aiko, Motoi Endo","title":"Higgs Probes of axion-like particles","comments":"25 pages, 6 figures","journal-ref":null,"doi":null,"report-no":"KEK--TH--2548","categories":"hep-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We study axion-like particle contributions to the Higgs boson decays. The\nparticle is assumed to couple with the standard model electroweak gauge bosons.\nAlthough direct productions of axion-like particles have often been discussed,\nwe investigate indirect contributions to the Higgs boson decays into fermions,\nphotons, $W$, and $Z$ bosons at the one-loop level. It is found that the\ncorrections to the fermions are suppressed, whereas precise measurements of the\ndi-photon channel of the Higgs boson decay can provide a significant probe of\nthe model especially when the axion-like particle is heavy and its coupling to\ndi-photon is suppressed.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:14:09 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Aiko","Masashi",""],["Endo","Motoi",""]]}
+{"id":"2308.15833","submitter":"Zhen Zhang","authors":"Zhen Zhang and Hongrui Sun and Hui Sun","title":"Depth analysis of battery performance based on a data-driven approach","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Capacity attenuation is one of the most intractable issues in the current of\napplication of the cells. The disintegration mechanism is well known to be very\ncomplex across the system. It is a great challenge to fully comprehend this\nprocess and predict the process accurately. Thus, the machine learning (ML)\ntechnology is employed to predict the specific capacity change of the cell\nthroughout the cycle and grasp this intricate procedure. Different from the\nprevious work, according to the WOA-ELM model proposed in this work (R2 =\n0.9999871), the key factors affecting the specific capacity of the battery are\ndetermined, and the defects in the machine learning black box are overcome by\nthe interpretable model. Their connection with the structural damage of\nelectrode materials and battery failure during battery cycling is\ncomprehensively explained, revealing their essentiality to battery performance,\nwhich is conducive to superior research on contemporary batteries and\nmodification.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:15:27 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Zhang","Zhen",""],["Sun","Hongrui",""],["Sun","Hui",""]]}
+{"id":"2308.15834","submitter":"Anusree Rajan","authors":"Anusree Rajan, Harini V, Bharadwaj Amrutur, Pavankumar Tallapragada","title":"Event-Triggered Polynomial Control for Trajectory Tracking of Unicycle\n Robots","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SY cs.SY","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This paper proposes an event-triggered polynomial control method for\ntrajectory tracking of unicycle robots. In this control method, each control\ninput signal between two consecutive events is a polynomial. At each event, the\ncoefficients of the polynomial control input are chosen to minimize the error\nin approximating a continuous-time control signal. We design an\nevent-triggering rule that guarantees uniform ultimate boundedness of the\ntracking error. We ensure the absence of zeno behavior by showing the existence\nof a uniform positive lower bound on the inter-event times. We illustrate our\nresults through numerical simulations and experiments. We show that the number\nof events generated by the proposed controller is significantly less compared\nto a time-triggered controller and an event-triggered controller based on\nzero-order hold, while guaranteeing similar tracking performance.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:17:16 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Rajan","Anusree",""],["V","Harini",""],["Amrutur","Bharadwaj",""],["Tallapragada","Pavankumar",""]]}
+{"id":"2308.15835","submitter":"Gabriel Torralba Paz","authors":"Gabriel Torralba Paz, Artem Bohdan and Jacek Niemiec","title":"Prediction and Anomaly Detection of accelerated particles in PIC\n simulations using neural networks","comments":"PoS(ICRC2023)341","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.HE physics.comp-ph physics.plasm-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Acceleration processes that occur in astrophysical plasmas produce cosmic\nrays that are observed on Earth. To study particle acceleration, fully-kinetic\nparticle-in-cell (PIC) simulations are often used as they can unveil the\nmicrophysics of energization processes. Tracing of individual particles in PIC\nsimulations is particularly useful in this regard. However, by-eye inspection\nof particle trajectories includes a high level of bias and uncertainty in\npinpointing specific acceleration mechanisms that affect particles. Here we\npresent a new approach that uses neural networks to aid individual particle\ndata analysis. We demonstrate this approach on the test data that consists of\n252,000 electrons which have been traced in a PIC simulation of a\nnon-relativistic high Mach number perpendicular shock, in which we observe the\ntwo-stream electrostatic Buneman instability to pre-accelerate a portion of\nelectrons to nonthermal energies. We perform classification, regression and\nanomaly detection by using a Convolutional Neural Network. We show that\nregardless of how noisy and imbalanced the datasets are, the regression and\nclassification are able to predict the final energies of particles with high\naccuracy, whereas anomaly detection is able to discern between energetic and\nnon-energetic particles. The methodology proposed may considerably simplify\nparticle classification in large-scale PIC and also hybrid kinetic simulations.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:19:53 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Paz","Gabriel Torralba",""],["Bohdan","Artem",""],["Niemiec","Jacek",""]]}
+{"id":"2308.15836","submitter":"Mohammad Reza Tanhayi","authors":"F. Khorasani, Reza Pirmoradian and Mohammad Reza Tanhayi","title":"Complexity of Thermofield double state for a Harmonic Oscillator with an\n External Field","comments":"18 pages, 8 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph hep-th","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper, we study the computational complexity of Gaussian states for a\nharmonic oscillator subjected to an external electric field. We use Nielsen's\ngeometric approach to obtain the so-called complexity of the thermofield double\nstate for a harmonic oscillator, and then by numerical analysis, we investigate\nthe effect of the appeared parameters on the complexity. Precisely, by\nnumerical analysis, we consider the effect of an external electric field on the\ndynamics of complexity. Our results indicate that turning on the electric field\nmay reduce the system's complexity.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:20:39 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Khorasani","F.",""],["Pirmoradian","Reza",""],["Tanhayi","Mohammad Reza",""]]}
+{"id":"2308.15837","submitter":"Andrey Pravdivtsev","authors":"Danila A. Barskiy and Andrey Pravdivtsev","title":"Magnetization and Polarization of Coupled Nuclear Spin Ensembles","comments":"26 pages, 6 figures, and 5 appendices","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.chem-ph quant-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In magnetic resonance, the bulk magnetization of a sample that is being\nmeasured is typically defined as a quantity proportional to spin polarization.\nThe fact that all spins of the same type contribute equally to measurable\nsignals is considered obvious. By focusing on nuclear spin ensembles, we prove\nthe high-field theorem for a general case of spin-I: grouping of spins in\nmolecules does not affect the total measurable NMR signal given thermal\nequilibrium at high field ($\\hbar \\gamma B_0 \\gg |H_{int}|$, where $|H_{int}|$\nis the characteristic amplitude of internal spin-spin interactions). We\ndemonstrate this first by analyzing equations for spin magnetization and then\nfor a general case using the density matrix formalism. We exemplify the theorem\nimplications by predicting NMR signal intensities for ensembles of molecules\ncontaining single, two, and three spins. The theorem is not applied in more\nintricate situations, such as zero- to ultralow-field conditions and far from\nthermodynamic equilibrium. Considering the populations of rotation levels, the\nthermal equilibrium polarization at HF and low temperature for H2 gas\nillustrate one of the intricate cases.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:21:27 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Barskiy","Danila A.",""],["Pravdivtsev","Andrey",""]]}
+{"id":"2308.15838","submitter":"Masaaki Takada","authors":"Masaaki Takada, Hironori Fujisawa","title":"Adaptive Lasso, Transfer Lasso, and Beyond: An Asymptotic Perspective","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"stat.ML cs.LG math.ST stat.ME stat.TH","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" This paper presents a comprehensive exploration of the theoretical properties\ninherent in the Adaptive Lasso and the Transfer Lasso. The Adaptive Lasso, a\nwell-established method, employs regularization divided by initial estimators\nand is characterized by asymptotic normality and variable selection\nconsistency. In contrast, the recently proposed Transfer Lasso employs\nregularization subtracted by initial estimators with the demonstrated capacity\nto curtail non-asymptotic estimation errors. A pivotal question thus emerges:\nGiven the distinct ways the Adaptive Lasso and the Transfer Lasso employ\ninitial estimators, what benefits or drawbacks does this disparity confer upon\neach method? This paper conducts a theoretical examination of the asymptotic\nproperties of the Transfer Lasso, thereby elucidating its differentiation from\nthe Adaptive Lasso. Informed by the findings of this analysis, we introduce a\nnovel method, one that amalgamates the strengths and compensates for the\nweaknesses of both methods. The paper concludes with validations of our theory\nand comparisons of the methods via simulation experiments.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:21:46 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Takada","Masaaki",""],["Fujisawa","Hironori",""]]}
+{"id":"2308.15839","submitter":"Myungjin Shin","authors":"Myungjin Shin, Dohae Lee, In-Kwon Lee","title":"Utilizing Task-Generic Motion Prior to Recover Full-Body Motion from\n Very Sparse Signals","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The most popular type of devices used to track a user's posture in a virtual\nreality experience consists of a head-mounted display and two controllers held\nin both hands. However, due to the limited number of tracking sensors (three in\ntotal), faithfully recovering the user in full-body is challenging, limiting\nthe potential for interactions among simulated user avatars within the virtual\nworld. Therefore, recent studies have attempted to reconstruct full-body poses\nusing neural networks that utilize previously learned human poses or accept a\nseries of past poses over a short period. In this paper, we propose a method\nthat utilizes information from a neural motion prior to improve the accuracy of\nreconstructed user's motions. Our approach aims to reconstruct user's full-body\nposes by predicting the latent representation of the user's overall motion from\nlimited input signals and integrating this information with tracking sensor\ninputs. This is based on the premise that the ultimate goal of pose\nreconstruction is to reconstruct the motion, which is a series of poses. Our\nresults show that this integration enables more accurate reconstruction of the\nuser's full-body motion, particularly enhancing the robustness of lower body\nmotion reconstruction from impoverished signals. Web:\nhttps://https://mjsh34.github.io/mp-sspe/\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:21:52 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Shin","Myungjin",""],["Lee","Dohae",""],["Lee","In-Kwon",""]]}
+{"id":"2308.15840","submitter":"Mingjie Qiu","authors":"Mingjie Qiu, Zhiyi Tan and Bing-kun Bao","title":"MSGNN: Multi-scale Spatio-temporal Graph Neural Network for Epidemic\n Forecasting","comments":"29 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI physics.soc-ph q-bio.PE","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Infectious disease forecasting has been a key focus and proved to be crucial\nin controlling epidemic. A recent trend is to develop forecast-ing models based\non graph neural networks (GNNs). However, existing GNN-based methods suffer\nfrom two key limitations: (1) Current models broaden receptive fields by\nscaling the depth of GNNs, which is insuffi-cient to preserve the semantics of\nlong-range connectivity between distant but epidemic related areas. (2)\nPrevious approaches model epidemics within single spatial scale, while ignoring\nthe multi-scale epidemic pat-terns derived from different scales. To address\nthese deficiencies, we devise the Multi-scale Spatio-temporal Graph Neural\nNetwork (MSGNN) based on an innovative multi-scale view. To be specific, in the\nproposed MSGNN model, we first devise a novel graph learning module, which\ndirectly captures long-range connectivity from trans-regional epidemic signals\nand integrates them into a multi-scale graph. Based on the learned multi-scale\ngraph, we utilize a newly designed graph convolution module to exploit\nmulti-scale epidemic patterns. This module allows us to facilitate multi-scale\nepidemic modeling by mining both scale-shared and scale-specific pat-terns.\nExperimental results on forecasting new cases of COVID-19 in United State\ndemonstrate the superiority of our method over state-of-arts. Further analyses\nand visualization also show that MSGNN offers not only accurate, but also\nrobust and interpretable forecasting result.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:21:56 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Qiu","Mingjie",""],["Tan","Zhiyi",""],["Bao","Bing-kun",""]]}
+{"id":"2308.15841","submitter":"Johannes Zirngibl","authors":"Johannes Zirngibl, Florian Gebauer, Patrick Sattler, Markus Sosnowski,\n Georg Carle","title":"QUIC Library Hunter: Identifying Server Libraries Across the Internet","comments":"preprint","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.NI","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" The new QUIC protocol can be implemented in user space, and various\nimplementations already exist. While they follow the same specification and\ngeneral interoperability is given, differences in performance, functionality,\nbut also security (e.g., due to bugs) can be expected. Therefore, knowledge\nabout the implementation of an endpoint on the Internet can help researchers,\noperators and users to better analyze connections, evaluations and findings.\n We provide an approach to identify used libraries of QUIC servers based on\nCONNECTION_CLOSE frames and transport parameter orders. We apply our\nmethodology to Internet-wide scans and identify at least one deployment for 18\nQUIC libraries. In total, we can identify the library of 8.8 M IPv4 and 2.5 M\nIPv6 addresses.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:22:05 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Zirngibl","Johannes",""],["Gebauer","Florian",""],["Sattler","Patrick",""],["Sosnowski","Markus",""],["Carle","Georg",""]]}
+{"id":"2308.15842","submitter":"Sujoy Bhore","authors":"Sayan Bandyapadhyay, Aritra Banik, Sujoy Bhore","title":"On Colorful Vertex and Edge Cover Problems","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DS cs.CG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this paper, we study two generalizations of Vertex Cover and Edge Cover,\nnamely Colorful Vertex Cover and Colorful Edge Cover. In the Colorful Vertex\nCover problem, given an $n$-vertex edge-colored graph $G$ with colors from\n$\\{1, \\ldots, \\omega\\}$ and coverage requirements $r_1, r_2, \\ldots, r_\\omega$,\nthe goal is to find a minimum-sized set of vertices that are incident on at\nleast $r_i$ edges of color $i$, for each $1 \\le i \\le \\omega$, i.e., we need to\ncover at least $r_i$ edges of color $i$. Colorful Edge Cover is similar to\nColorful Vertex Cover, except here we are given a vertex-colored graph and the\ngoal is to cover at least $r_i$ vertices of color $i$, for each $1 \\le i \\le\n\\omega$, by a minimum-sized set of edges. These problems have several\napplications in fair covering and hitting of geometric set systems involving\npoints and lines that are divided into multiple groups. Here, fairness ensures\nthat the coverage (resp. hitting) requirement of every group is fully\nsatisfied.\n We obtain a $(2+\\epsilon)$-approximation for the Colorful Vertex Cover\nproblem in time $n^{O(\\omega/\\epsilon)}$. Thus, for a constant number of\ncolors, the problem admits a $(2+\\epsilon)$-approximation in polynomial time.\nNext, for the Colorful Edge Cover problem, we design an $O(\\omega n^3)$ time\nexact algorithm, via a chain of reductions to a matching problem. For all\nintermediate problems in this chain of reductions, we design polynomial-time\nalgorithms, which might be of independent interest.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:27:09 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Bandyapadhyay","Sayan",""],["Banik","Aritra",""],["Bhore","Sujoy",""]]}
+{"id":"2308.15843","submitter":"Etido Inyang","authors":"M. Abu-Shady, E. Omugbe and E.P. Inyang","title":"Approximate Bound State Solutions of the Fractional Schr\\\"odinger\n Equation under the Spin-Spin-Dependent Cornell Potential","comments":"16 pages,2 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this work, the approximate bound state solutions of the fractional\nSchr\\\"odinger equation under a spin-spin-dependent Cornell potential are\nobtained via the convectional Nikiforov-Uvarov approach. The energy spectra are\napplied to obtain the mass spectra of the heavy mesons such as bottomonium,\ncharmonium and bottom-charm. The masses for the singlet and triplet spin\nnumbers increase as the quantum numbers increase. The fractional Schr\\\"odinger\nequation improves the mass spectra compared to the masses obtained in the\nexisting literature. The bottomonium masses agree with the experimental data of\nthe Particle Data Group where percentage errors for fractional parameters of\n\\b{eta}=1,{\\alpha}=0.97 and \\b{eta}=1,{\\alpha}=0.50 were found to be 0.67% and\n0.49% respectively. The respective percentage errors of 1.97% and 1.62% for\nfractional parameters of \\b{eta}=1,{\\alpha}=0.97 and \\b{eta}=1,{\\alpha}=0.50\nwere obtained for charmonium meson. The results indicate that the potential\ncurves coupled with the fractional parameters account for the short-range gluon\nexchange between the quark-antiquark interactions and the linear confinement\nphenomena which is associated with the quantum chromo-dynamic and\nphenomenological potential models in particle and high-energy physics\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:28:02 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Abu-Shady","M.",""],["Omugbe","E.",""],["Inyang","E. P.",""]]}
+{"id":"2308.15844","submitter":"Yangang Wang","authors":"Buzhen Huang, Jingyi Ju, Zhihao Li and Yangang Wang","title":"Reconstructing Groups of People with Hypergraph Relational Reasoning","comments":"Accepted by ICCV2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Due to the mutual occlusion, severe scale variation, and complex spatial\ndistribution, the current multi-person mesh recovery methods cannot produce\naccurate absolute body poses and shapes in large-scale crowded scenes. To\naddress the obstacles, we fully exploit crowd features for reconstructing\ngroups of people from a monocular image. A novel hypergraph relational\nreasoning network is proposed to formulate the complex and high-order relation\ncorrelations among individuals and groups in the crowd. We first extract\ncompact human features and location information from the original\nhigh-resolution image. By conducting the relational reasoning on the extracted\nindividual features, the underlying crowd collectiveness and interaction\nrelationship can provide additional group information for the reconstruction.\nFinally, the updated individual features and the localization information are\nused to regress human meshes in camera coordinates. To facilitate the network\ntraining, we further build pseudo ground-truth on two crowd datasets, which may\nalso promote future research on pose estimation and human behavior\nunderstanding in crowded scenes. The experimental results show that our\napproach outperforms other baseline methods both in crowded and common\nscenarios. The code and datasets are publicly available at\nhttps://github.com/boycehbz/GroupRec.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:31:55 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Huang","Buzhen",""],["Ju","Jingyi",""],["Li","Zhihao",""],["Wang","Yangang",""]]}
+{"id":"2308.15845","submitter":"Flavien MABILAT","authors":"Flavien Mabilat (LMR)","title":"A dense subset of $M\\_{n}(\\mathbb{R})$ containing diagonalizable\n matrices","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.RA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this note, we consider matrices similar to $X$-form matrices, which are\nthe matrices for which only the diagonal and the anti-diagonal elements can be\ndifferent from zero. First, we give a characterization of these matrices using\nthe minimal polynomial. Then, we prove that the set of matrices similar to\n$X$-form matrices over $\\mathbb{R}$ and $\\mathbb{C}$ are dense and we give a\ncharacterization of the interior of this set.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:32:20 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Mabilat","Flavien","","LMR"]]}
+{"id":"2308.15846","submitter":"Yifan Xu","authors":"Yifan Xu, Mengdan Zhang, Xiaoshan Yang, Changsheng Xu","title":"Exploring Multi-Modal Contextual Knowledge for Open-Vocabulary Object\n Detection","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper, we for the first time explore helpful multi-modal contextual\nknowledge to understand novel categories for open-vocabulary object detection\n(OVD). The multi-modal contextual knowledge stands for the joint relationship\nacross regions and words. However, it is challenging to incorporate such\nmulti-modal contextual knowledge into OVD. The reason is that previous\ndetection frameworks fail to jointly model multi-modal contextual knowledge, as\nobject detectors only support vision inputs and no caption description is\nprovided at test time. To this end, we propose a multi-modal contextual\nknowledge distillation framework, MMC-Det, to transfer the learned contextual\nknowledge from a teacher fusion transformer with diverse multi-modal masked\nlanguage modeling (D-MLM) to a student detector. The diverse multi-modal masked\nlanguage modeling is realized by an object divergence constraint upon\ntraditional multi-modal masked language modeling (MLM), in order to extract\nfine-grained region-level visual contexts, which are vital to object detection.\nExtensive experiments performed upon various detection datasets show the\neffectiveness of our multi-modal context learning strategy, where our approach\nwell outperforms the recent state-of-the-art methods.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:33:13 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Xu","Yifan",""],["Zhang","Mengdan",""],["Yang","Xiaoshan",""],["Xu","Changsheng",""]]}
+{"id":"2308.15847","submitter":"Daniel Russo","authors":"Daniel Russo","title":"Pandemic Pedagogy: Evaluating Remote Education Strategies during\n COVID-19","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CY cs.SE","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The COVID-19 pandemic precipitated an abrupt shift in the educational\nlandscape, compelling universities to transition from in-person to online\ninstruction. This sudden shift left many university instructors grappling with\nthe intricacies of remote teaching. Now, with the pandemic behind us, we\npresent a retrospective study aimed at understanding and evaluating the remote\nteaching practices employed during that period. Drawing from a cross-sectional\nanalysis of 300 computer science students who underwent a full year of online\neducation during the lockdown, our findings indicate that while remote teaching\npractices moderately influenced students' learning outcomes, they had a\npronounced positive impact on student satisfaction. Remarkably, these outcomes\nwere consistent across various demographics, including country, gender, and\neducational level. As we reflect on the lessons from this global event, this\nresearch offers evidence-based recommendations that could inform educational\nstrategies in unwelcoming future scenarios of a similar nature, ensuring both\nstudent satisfaction and effective learning outcomes in online settings.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:34:01 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Russo","Daniel",""]]}
+{"id":"2308.15848","submitter":"Flavien MABILAT","authors":"Flavien Mabilat (LMR)","title":"$\\lambda$-quiddit{\\'e}s sur des produits directs d'anneaux","comments":"in French language","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The aim of this article is to continue the study of the notion of\n$\\lambda$-quiddity over a ring, which appeared during the study of Coxeter's\nfriezes. For this, we will focus here on situations where the ring used can be\nseen as a direct product of unitary commutative rings. In particular, we will\nconsider the cases of direct products of rings containing at least two rings of\ncharacteristic 0 and we will also consider some products of the type\n$\\mathbb{Z}/n\\mathbb{Z} \\times \\mathbb{Z}/m\\mathbb{Z}$.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:34:01 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Mabilat","Flavien","","LMR"]]}
+{"id":"2308.15849","submitter":"Quan-Feng Wu","authors":"Quan-feng Wu and Xun-Jie Xu","title":"Shedding light on neutrino self-interactions with solar antineutrino\n searches","comments":"18 pages, 5 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph astro-ph.CO astro-ph.HE astro-ph.SR hep-ex","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Solar antineutrinos are absent in the standard solar model prediction.\nConsequently, solar antineutrino searches emerge as a powerful tool to probe\nnew physics capable of converting neutrinos into antineutrinos. In this study,\nwe highlight that neutrino self-interactions, recently gaining considerable\nattention due to their cosmological and astrophysical implications, can lead to\nsignificant solar antineutrino production. We systematically explore various\ntypes of four-fermion effective operators and light scalar mediators for\nneutrino self-interactions. By estimating the energy spectra and event rates of\nsolar antineutrinos at prospective neutrino detectors such as JUNO,\nHyper-Kamiokande, and THEIA, we reveal that solar antineutrino searches can\nimpose stringent constraints on neutrino self-interactions and probe the\nparameter space favored by the Hubble tension.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:35:01 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Wu","Quan-feng",""],["Xu","Xun-Jie",""]]}
+{"id":"2308.15850","submitter":"Yong Wang","authors":"Tong Wu, Yong Wang","title":"A general Dabrowski-Sitarz-Zalecki type theorems for manifold with\n boundary","comments":"arXiv admin note: substantial text overlap with arXiv:2212.12182,\n arXiv:2204.11021, arXiv:2111.15034, arXiv:2304.00523","journal-ref":null,"doi":null,"report-no":null,"categories":"math.DG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In [17], we obtained the spectral Einstein functional associated with the\nDirac operator for n-dimensional manifolds without boundary. In this paper, we\ngive the proof of general Dabrowski-Sitarz-Zalecki type theorems for the\nspectral Einstein functional associated with the Dirac operator on even and odd\ndimensional manifolds with boundary.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:35:10 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Wu","Tong",""],["Wang","Yong",""]]}
+{"id":"2308.15851","submitter":"Yang Zhou","authors":"Yang Zhou, Pengfei Cao, Yubo Chen, Kang Liu, Jun Zhao","title":"Prompting Vision Language Model with Knowledge from Large Language Model\n for Knowledge-Based VQA","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.MM","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Knowledge-based visual question answering is a very challenging and widely\nconcerned task. Previous methods adopts the implicit knowledge in large\nlanguage models (LLM) to achieve excellent results, but we argue that existing\nmethods may suffer from biasing understanding of the image and insufficient\nknowledge to solve the problem. In this paper, we propose PROOFREAD -PROmpting\nvision language model with knOwledge From laRgE lAnguage moDel, a novel,\nlightweight and efficient kowledge-based VQA framework, which make the vision\nlanguage model and the large language model cooperate to give full play to\ntheir respective strengths and bootstrap each other. In detail, our proposed\nmethod uses LLM to obtain knowledge explicitly, uses the vision language model\nwhich can see the image to get the knowledge answer, and introduces knowledge\nperceiver to filter out knowledge that is harmful for getting the correct final\nanswer. Experimental results on two datasets prove the effectiveness of our\napproach. Our method outperforms all state-of-the-art methods on the A-OKVQA\ndataset in two settings and also achieves relatively good performance on the\nOKVQA dataset.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:35:31 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Zhou","Yang",""],["Cao","Pengfei",""],["Chen","Yubo",""],["Liu","Kang",""],["Zhao","Jun",""]]}
+{"id":"2308.15852","submitter":"Daria de Tinguy","authors":"Daria de Tinguy, Sven Remmery, Pietro Mazzaglia, Tim Verbelen, Bart\n Dhoedt","title":"Learning to Navigate from Scratch using World Models and Curiosity: the\n Good, the Bad, and the Ugly","comments":"IROS 2023 workshop World Models and Predictive Coding in Cognitive\n Robotics","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.RO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Learning to navigate unknown environments from scratch is a challenging\nproblem. This work presents a system that integrates world models with\ncuriosity-driven exploration for autonomous navigation in new environments. We\nevaluate performance through simulations and real-world experiments of varying\nscales and complexities. In simulated environments, the approach rapidly and\ncomprehensively explores the surroundings. Real-world scenarios introduce\nadditional challenges. Despite demonstrating promise in a small controlled\nenvironment, we acknowledge that larger and dynamic environments can pose\nchallenges for the current system. Our analysis emphasizes the significance of\ndeveloping adaptable and robust world models that can handle environmental\nchanges to prevent repetitive exploration of the same areas.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:38:42 GMT"}],"update_date":"2023-08-31","authors_parsed":[["de Tinguy","Daria",""],["Remmery","Sven",""],["Mazzaglia","Pietro",""],["Verbelen","Tim",""],["Dhoedt","Bart",""]]}
+{"id":"2308.15853","submitter":"Xuding Zhu","authors":"Huan Zhou and Jialu Zhu and Xuding Zhu","title":"Weak$^*$ degeneracy and weak$^*$ $k$-truncated-degree-degenerate graphs","comments":"19 pages, 1 figure","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" This paper introduces the concept of weak$^*$ degeneracy of a graph that\nshares many nice properties of degeneracy.\n We prove that for any $f: V(G) \\to \\mathbb{N}$, if $G$ is weak$^*$\n$f$-degenerate, then $G$ is DP-$f$-paintable and $f$-AT. Hence the weak$^*$\ndegeneracy of $G$ is an upper bound for many colouring parameters, including\nthe online DP-chromatic number and the Alon-Tarsi number. Let $k$ be a positive\ninteger and let $f(v)=\\min\\{d_G(v), k\\}$ for each vertex $v$ of $G$. If $G$ is\nweak$^*$ $f$-degenerate (respectively, $f$-choosable), then we say $G$ is\nweak$^*$ $k$-truncated-degree--degenerate (respectively,\n$k$-truncated-degree-choosable). Richtor asked whether every 3-connected\nnon-complete planar graph is $6$-truncated-degree-choosable. We construct a\n3-connected non-complete planar graph which is not\n$7$-truncated-degree-choosable, so the answer to Richtor's question is negative\neven if 6 is replaced by 7. Then we prove that every 3-connected non-complete\nplanar graph is weak$^*$ $16$-truncated-degree-degenerate (and hence\n$16$-truncated-degree-choosable). For an arbitrary proper minor closed family\n${\\mathcal G}$ of graphs, let $s$ be the minimum integer such that $K_{s,t}\n\\notin \\mathcal{G}$ for some $t$. We prove that there is a constant $k$ such\nthat every $s$-connected non-complete graph $G \\in {\\mathcal G}$ is weak$^*$\n$k$-truncated-degree-degenerate.\n In particular, for any surface $\\Sigma$, there is a constant $k$ such that\nevery 3-connected non-complete graph embeddable on $\\Sigma$ is weak$^*$\n$k$-truncated-degree-degenerate.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:39:13 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Zhou","Huan",""],["Zhu","Jialu",""],["Zhu","Xuding",""]]}
+{"id":"2308.15854","submitter":"Zhanbo Feng","authors":"Zhanbo Feng, Zenan Ling, Ci Gong, Feng Zhou, Jie Li, Robert C. Qiu","title":"Zero-shot Inversion Process for Image Attribute Editing with Diffusion\n Models","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Denoising diffusion models have shown outstanding performance in image\nediting. Existing works tend to use either image-guided methods, which provide\na visual reference but lack control over semantic coherence, or text-guided\nmethods, which ensure faithfulness to text guidance but lack visual quality. To\naddress the problem, we propose the Zero-shot Inversion Process (ZIP), a\nframework that injects a fusion of generated visual reference and text guidance\ninto the semantic latent space of a \\textit{frozen} pre-trained diffusion\nmodel. Only using a tiny neural network, the proposed ZIP produces diverse\ncontent and attributes under the intuitive control of the text prompt.\nMoreover, ZIP shows remarkable robustness for both in-domain and out-of-domain\nattribute manipulation on real images. We perform detailed experiments on\nvarious benchmark datasets. Compared to state-of-the-art methods, ZIP produces\nimages of equivalent quality while providing a realistic editing effect.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:40:15 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Feng","Zhanbo",""],["Ling","Zenan",""],["Gong","Ci",""],["Zhou","Feng",""],["Li","Jie",""],["Qiu","Robert C.",""]]}
+{"id":"2308.15855","submitter":"Weifu Fu","authors":"Weifu Fu, Qiang Nie, Jialin Li, Yuhuan Lin, Kai Wu, Yong Liu, Chengjie\n Wang","title":"Semi-supervised Domain Adaptation with Inter and Intra-domain Mixing for\n Semantic Segmentation","comments":"7 pages, 4 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Despite recent advances in semantic segmentation, an inevitable challenge is\nthe performance degradation caused by the domain shift in real application.\nCurrent dominant approach to solve this problem is unsupervised domain\nadaptation (UDA). However, the absence of labeled target data in UDA is overly\nrestrictive and limits performance. To overcome this limitation, a more\npractical scenario called semi-supervised domain adaptation (SSDA) has been\nproposed. Existing SSDA methods are derived from the UDA paradigm and primarily\nfocus on leveraging the unlabeled target data and source data. In this paper,\nwe highlight the significance of exploiting the intra-domain information\nbetween the limited labeled target data and unlabeled target data, as it\ngreatly benefits domain adaptation. Instead of solely using the scarce labeled\ndata for supervision, we propose a novel SSDA framework that incorporates both\ninter-domain mixing and intra-domain mixing, where inter-domain mixing\nmitigates the source-target domain gap and intra-domain mixing enriches the\navailable target domain information. By simultaneously learning from\ninter-domain mixing and intra-domain mixing, the network can capture more\ndomain-invariant features and promote its performance on the target domain. We\nalso explore different domain mixing operations to better exploit the target\ndomain information. Comprehensive experiments conducted on the GTA5toCityscapes\nand SYNTHIA2Cityscapes benchmarks demonstrate the effectiveness of our method,\nsurpassing previous methods by a large margin.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:44:21 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Fu","Weifu",""],["Nie","Qiang",""],["Li","Jialin",""],["Lin","Yuhuan",""],["Wu","Kai",""],["Liu","Yong",""],["Wang","Chengjie",""]]}
+{"id":"2308.15856","submitter":"Ozan Sener","authors":"Ozan Sener and Vladlen Koltun","title":"Domain Generalization without Excess Empirical Risk","comments":"Published at NeurIPS 2022","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG stat.ML","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Given data from diverse sets of distinct distributions, domain generalization\naims to learn models that generalize to unseen distributions. A common approach\nis designing a data-driven surrogate penalty to capture generalization and\nminimize the empirical risk jointly with the penalty. We argue that a\nsignificant failure mode of this recipe is an excess risk due to an erroneous\npenalty or hardness in joint optimization. We present an approach that\neliminates this problem. Instead of jointly minimizing empirical risk with the\npenalty, we minimize the penalty under the constraint of optimality of the\nempirical risk. This change guarantees that the domain generalization penalty\ncannot impair optimization of the empirical risk, i.e., in-distribution\nperformance. To solve the proposed optimization problem, we demonstrate an\nexciting connection to rate-distortion theory and utilize its tools to design\nan efficient method. Our approach can be applied to any penalty-based domain\ngeneralization method, and we demonstrate its effectiveness by applying it to\nthree examplar methods from the literature, showing significant improvements.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:46:46 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Sener","Ozan",""],["Koltun","Vladlen",""]]}
+{"id":"2308.15857","submitter":"Lucie Pepe","authors":"Lucie Pepe, Vincent Pouthier, Saad Yalouz","title":"Optimized excitonic transport mediated by local energy defects: survival\n of optimization laws in the presence of dephasing","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In an extended star with peripheral defects and a core occupied by a trap, it\nhas been shown that exciton-mediated energy transport from the periphery to the\ncore can be optimized [S. Yalouz et al. Phys. Rev. E 106, 064313 (2022)]. If\nthe defects are judiciously chosen, the exciton dynamics is isomorphic to that\nof an asymmetric chain and a speedup of the excitonic propagation is observed.\nHere, we extend this previous work by considering that the exciton in both an\nextended star and an asymmetric chain, is perturbed by the presence of a\ndephasing environment. Simulating the dynamics using a Lindblad master\nequation, two questions are addressed: how does the environment affect the\nenergy transport on these two networks? And, do the two systems still behave\nequivalently in the presence of dephasing? Our results reveal that the\ntime-scale for the exciton dynamics strongly depends on the nature of the\nnetwork. But quite surprisingly, the two networks behave similarly regarding\nthe survival of their optimization law. In both cases, the energy transport can\nbe improved using the same original optimal tuning of energy defects as long as\nthe dephasing remains weak. However, for moderate/strong dephasing, the\noptimization law is lost due to quantum Zeno effect.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:47:30 GMT"},{"version":"v2","created":"Thu, 31 Aug 2023 13:49:02 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Pepe","Lucie",""],["Pouthier","Vincent",""],["Yalouz","Saad",""]]}
+{"id":"2308.15858","submitter":"Thibaut Delcroix","authors":"Thibaut Delcroix, Pierre-Louis Montagard","title":"Spherical actions on locally factorial Fano varieties of dimension $\\leq\n 4$ and rank $\\leq 2$","comments":"65 pages including two big tables and more than 200 polytopes.\n Comments welcome!","journal-ref":null,"doi":null,"report-no":null,"categories":"math.AG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We obtain the exhaustive list of 337 faithful spherical actions of rank two\nor less on locally factorial Fano manifolds of dimension four or less. As a\npreliminary step, we determine the explicit list of spherical homogeneous\nspaces of dimension four or less, together with their combinatorial data. Then\nwe classify the possible locally factorial $G/H$-reflexive polytopes for each\nsuch spherical homogeneous space $G/H$. From the combinatorial data gathered in\nthis article, one can easily read off the Picard rank (even the Picard group),\nFano index, anticanonical volume of the underlying locally factorial Fano\nvariety, etc.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:47:38 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Delcroix","Thibaut",""],["Montagard","Pierre-Louis",""]]}
+{"id":"2308.15859","submitter":"Samira Rezaei","authors":"S. Rezaei, J. P. McKean, A. T. Deller and J. F. Radcliffe","title":"On the source counts of VLBI-detected radio sources and the prospects of\n all-sky surveys with current and next generation instruments","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We present an analysis of the detection fraction and the number counts of\nradio sources imaged with Very Long Baseline Interferometry (VLBI) at 1.4 GHz\nas part of the mJIVE-20 survey. From a sample of 24,903 radio sources\nidentified by FIRST, 4,965 are detected on VLBI-scales, giving an overall\ndetection fraction of $19.9\\pm2.9~$per cent. However, we find that the\ndetection fraction falls from around 50 per cent at a peak surface brightness\nof $80~mJy~beam^{-1}$ in FIRST to around 8 per cent at the detection limit,\nwhich is likely dominated by the surface brightness sensitivity of the VLBI\nobservations, with some contribution from a change in the radio source\npopulation. We also find that compactness at arcsec-scales is the dominant\nfactor in determining whether a radio source is detected with VLBI, and that\nthe median size of the VLBI-detected radio sources is 7.7 mas. After correcting\nfor the survey completeness and effective sky area, we determine the slope of\nthe differential number counts of VLBI-detected radio sources with flux\ndensities $S_{\\rm 1.4~GHz} > 1~mJy$ to be $\\eta_{\\rm VLBI} = -1.74\\pm 0.02$,\nwhich is shallower than in the cases of the FIRST parent population ($\\eta_{\\rm\nFIRST} = -1.77\\pm 0.02$) and for compact radio sources selected at higher\nfrequencies ($\\eta_{\\rm JBF} = -2.06\\pm 0.02$). From this, we find that all-sky\n($3\\pi~sr$) surveys with the EVN and the VLBA have the potential to detect\n$(7.2\\pm0.9)\\times10^{5}$ radio sources at mas-resolution, and that the density\nof compact radio sources is sufficient (5.3~deg$^{-2}$) for in-beam phase\nreferencing with multiple sources (3.9 per primary beam) in the case of a\nhypothetical SKA-VLBI array.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:47:43 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Rezaei","S.",""],["McKean","J. P.",""],["Deller","A. T.",""],["Radcliffe","J. F.",""]]}
+{"id":"2308.15860","submitter":"Qi Liu","authors":"Qi Liu and Xiyu Tang and Ju Huo","title":"Research on Image Stitching Based on Invariant Features of Reconstructed\n Plane","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"eess.IV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Generating high-quality stitched images is a challenging task in computer\nvision. The existing feature-based image stitching methods commonly only focus\non point and line features, neglecting the crucial role of higher-level planar\nfeatures in image stitching. This paper proposes an image stitching method\nbased on invariant planar features, which uses planar features as constraints\nto improve the overall effect of natural image stitching. Initially, our\napproach expands the quantity of matched feature points and lines through\nstraight-line procedures, advancing alignment quality and reducing artifacts in\noverlapping areas. Then, uncertain planes are described by known matching\npoints and matching lines, and plane features are introduced to preserve energy\nitems, which improves the overall appearance of stitched images while reducing\ndistortion and guarantees a more natural stitched image. Furthermore, to\ndemonstrate the superiority of our approach, we also propose several evaluation\nindexes related to planar features to quantify the detailed changes of planar\nfeatures. An extensive set of experiments validates the effectiveness of our\napproach in stitching natural images with a larger field of view. Compared with\nthe most advanced methods, our method retains the texture and structure of the\nimage better, and produces less unnatural distortion. Multiple quantitative\nevaluations illustrate that our approach outperforms existing methods with\nsignificant improvements, further validating the effectiveness and superiority\nof our proposed method.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:50:49 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Liu","Qi",""],["Tang","Xiyu",""],["Huo","Ju",""]]}
+{"id":"2308.15861","submitter":"Zekai Hong","authors":"Zhengjiang Li and Zekai Hong","title":"Islands on codim-2 branes in Gauss-Bonnet Gravity","comments":"18 pages,6 figurs","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-th","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We study the black hole information problem on codim-2 branes in Gauss-Bonnet\ngravity. Thanks to the island surface ending on the brane, the Page curve of\neternal black holes can be recovered for all of the GB couplings within the\ncausal constraints. Our results strongly support the universality of the island\nmechanism. Similar to Einstein's gravity, the HM surface can exist only in a\nfinite time in GB gravity. Remarkably, for various parameters, the maximum\ntimes of HM surface are always larger than the Page times. As a result, the\nstrange behavior of HM surfaces does not affect the Page curves for general GB\ngravity. Finally, we find that the Page time increases with the GB couplings\nand the brane tension.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:53:30 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Li","Zhengjiang",""],["Hong","Zekai",""]]}
+{"id":"2308.15862","submitter":"EPTCS","authors":"Peter Baumgartner (Data61/CSIRO), Elena Tartaglia (Data61/CSIRO)","title":"Bottom-Up Stratified Probabilistic Logic Programming with Fusemate","comments":"In Proceedings ICLP 2023, arXiv:2308.14898. A full version of this\n paper, containing all proofs, appears at arXiv:2305.18924","journal-ref":"EPTCS 385, 2023, pp. 87-100","doi":"10.4204/EPTCS.385.11","report-no":null,"categories":"cs.LO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This paper introduces the Fusemate probabilistic logic programming system.\nFusemate's inference engine comprises a grounding component and a variable\nelimination method for probabilistic inference. Fusemate differs from most\nother systems by grounding the program in a bottom-up way instead of the common\ntop-down way. While bottom-up grounding is attractive for a number of reasons,\ne.g., for dynamically creating distributions of varying support sizes, it makes\nit harder to control the amount of ground clauses generated. We address this\nproblem by interleaving grounding with a query-guided relevance test which\nprunes rules whose bodies are inconsistent with the query. % This is done We\npresent our method in detail and demonstrate it with examples that involve\n\"time\", such as (hidden) Markov models. Our experiments demonstrate competitive\nor better performance compared to a state-of-the art probabilistic logic\nprogramming system, in particular for high branching problems.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:54:48 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Baumgartner","Peter","","Data61/CSIRO"],["Tartaglia","Elena","","Data61/CSIRO"]]}
+{"id":"2308.15863","submitter":"EPTCS","authors":"Richard Comploi-Taupe (Siemens AG \\\"Osterreich, Vienna, Austria)","title":"Inductive Learning of Declarative Domain-Specific Heuristics for ASP","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 129-140","doi":"10.4204/EPTCS.385.14","report-no":null,"categories":"cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Domain-specific heuristics are a crucial technique for the efficient solving\nof problems that are large or computationally hard. Answer Set Programming\n(ASP) systems support declarative specifications of domain-specific heuristics\nto improve solving performance. However, such heuristics must be invented\nmanually so far. Inventing domain-specific heuristics for answer-set programs\nrequires expertise with the domain under consideration and familiarity with ASP\nsyntax, semantics, and solving technology. The process of inventing useful\nheuristics would highly profit from automatic support. This paper presents a\nnovel approach to the automatic learning of such heuristics. We use Inductive\nLogic Programming (ILP) to learn declarative domain-specific heuristics from\nexamples stemming from (near-)optimal answer sets of small but representative\nproblem instances. Our experimental results indicate that the learned\nheuristics can improve solving performance and solution quality when solving\nlarger, harder instances of the same problem.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:55:17 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Comploi-Taupe","Richard","","Siemens AG \u00d6sterreich, Vienna, Austria"]]}
+{"id":"2308.15864","submitter":"Grace Qiyuan Miao","authors":"Grace Qiyuan Miao, Rick Dale and Alexia Galati","title":"(Mis)align: A Simple Dynamic Framework for Modeling Interpersonal\n Coordination","comments":"Code and data necessary to reproduce findings in this article can be\n found at the following GitHub repository:\n https://github.com/miaoqy0729/sim-syn-sims","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.MA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" As people coordinate in daily interactions, they engage in different patterns\nof behavior to achieve successful outcomes. This includes both synchrony - the\ntemporal coordination of the same behaviors at the same time - and\ncomplementarity - the coordination of the same or different behaviors that may\noccur at different relative times. Using computational methods, we develop a\nsimple framework to describe the interpersonal dynamics of behavioral synchrony\nand complementarity over time, and explore their task dependence. A key feature\nof this framework is the inclusion of a task context that mediates\ninteractions, and consists of active, inactive, and inhibitory constraints on\ncommunication. Initial simulation results show that these task constraints can\nbe a robust predictor of simulated agents' behaviors over time. We also show\nthat the framework can reproduce some general patterns observed in human\ninteraction data. We describe preliminary theoretical implications from these\nresults, and relate them to broader proposals of synergistic self-organization\nin communication.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:55:30 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Miao","Grace Qiyuan",""],["Dale","Rick",""],["Galati","Alexia",""]]}
+{"id":"2308.15865","submitter":"EPTCS","authors":"Kilian R\\\"uckschlo{\\ss} (Ludwig-Maximilians-Universit\\\"at M\\\"unchen),\n Felix Weitk\\\"amper (Ludwig-Maximilians-Universit\\\"at M\\\"unchen)","title":"On the Independencies Hidden in the Structure of a Probabilistic Logic\n Program","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 169-182","doi":"10.4204/EPTCS.385.17","report-no":null,"categories":"cs.LO cs.AI cs.PL","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Pearl and Verma developed d-separation as a widely used graphical criterion\nto reason about the conditional independencies that are implied by the causal\nstructure of a Bayesian network. As acyclic ground probabilistic logic programs\ncorrespond to Bayesian networks on their dependency graph, we can compute\nconditional independencies from d-separation in the latter.\n In the present paper, we generalize the reasoning above to the non-ground\ncase. First, we abstract the notion of a probabilistic logic program away from\nexternal databases and probabilities to obtain so-called program structures. We\nthen present a correct meta-interpreter that decides whether a certain\nconditional independence statement is implied by a program structure on a given\nexternal database. Finally, we give a fragment of program structures for which\nwe obtain a completeness statement of our conditional independence oracle. We\nclose with an experimental evaluation of our approach revealing that our\nmeta-interpreter performs significantly faster than checking the definition of\nindependence using exact inference in ProbLog 2.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:55:55 GMT"}],"update_date":"2023-08-31","authors_parsed":[["R\u00fcckschlo\u00df","Kilian","","Ludwig-Maximilians-Universit\u00e4t M\u00fcnchen"],["Weitk\u00e4mper","Felix","","Ludwig-Maximilians-Universit\u00e4t M\u00fcnchen"]]}
+{"id":"2308.15866","submitter":"Yuhua Yao","authors":"Yu-Hua Yao, Xu-Lin Dong, Yi-Qing Guo and Qiang Yuan","title":"A common origin of multi-messenger spectral anomaly of galactic cosmic\n rays","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.HE","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" Recent observations of cosmic rays (CRs) have revealed a two-component\nanomaly in the spectra of primary and secondary particles, as well as their\nratios, prompting investigation into their common origin. In this study, we\nincorporate the identification of slow diffusion zones around sources as a\ncommon phenomenon into our calculations, which successfully reproduces all\npreviously described anomalies except for the positron spectrum. Crucially, our\nresearch offers a clear physical picture of the origin of CR: while high-energy\n($\\textrm{>200~GV}$, including the knee) particles are primarily produced by\nfresh accelerators and are confined to local regions, low energy\n($\\textrm{<200~GV}$) components come from distant sources and travel through\nthe outer diffusive zone outside of the galactic disk. This scenario can be\nuniversally applied in the galactic disk, as evidenced by ultra-high energy\ndiffuse $\\rm\\gamma$-ray emissions detected by the AS$\\rm\\gamma$ experiment.\nFurthermore, our results predict that the spectrum of diffuse $\\rm\\gamma$-ray\nis spatial-dependent, resting with local sources, which can be tested by LHAASO\nexperiment.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:55:57 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Yao","Yu-Hua",""],["Dong","Xu-Lin",""],["Guo","Yi-Qing",""],["Yuan","Qiang",""]]}
+{"id":"2308.15867","submitter":"EPTCS","authors":"W{\\l}odzimierz Drabent","title":"On Feasibility of Declarative Diagnosis","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 193-200","doi":"10.4204/EPTCS.385.20","report-no":null,"categories":"cs.LO cs.PL cs.SE","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The programming language Prolog makes declarative programming possible, at\nleast to a substantial extent. Programs may be written and reasoned about in\nterms of their declarative semantics. All the advantages of declarative\nprogramming are however lost when it comes to program debugging. This is\nbecause the Prolog debugger is based solely on the operational semantics.\nDeclarative methods of diagnosis (i.e. locating errors in programs) exist, but\nare neglected. This paper discusses their possibly main weaknesses and shows\nhow to overcome them. We argue that useful ways of declarative diagnosis of\nlogic programs exist, and should be usable in actual programming.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:56:19 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Drabent","W\u0142odzimierz",""]]}
+{"id":"2308.15868","submitter":"Muhammed Hamza","authors":"Muhammad Hamza (1), Ammar Hawbani (1), Sami Ul Rehman (1), Xingfu Wang\n (1) and Liang Zhao (2) ((1) Computer Science and Technology, University of\n Science and Technology of China, (2) School of Computer Science, Shenyang\n Aerospace University)","title":"Feature Attention Network (FA-Net): A Deep-Learning Based Approach for\n Underwater Single Image Enhancement","comments":"Fourteenth International Conference on Digital Image Processing\n (ICDIP 2022), 2022, Wuhan, China, May 20-23, 2022.8 pages.5 Figures.doi:\n 10.1117/12.2644516","journal-ref":"Fourteenth International Conference on Digital Image Processing\n (ICDIP 2022), 2022, Wuhan, China, May 20-23, 2022","doi":"10.1117/12.2644516","report-no":null,"categories":"cs.CV eess.IV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Underwater image processing and analysis have been a hotspot of study in\nrecent years, as more emphasis has been focused to underwater monitoring and\nusage of marine resources. Compared with the open environment, underwater image\nencountered with more complicated conditions such as light abortion,\nscattering, turbulence, nonuniform illumination and color diffusion. Although\nconsiderable advances and enhancement techniques achieved in resolving these\nissues, they treat low-frequency information equally across the entire channel,\nwhich results in limiting the network's representativeness. We propose a deep\nlearning and feature-attention-based end-to-end network (FA-Net) to solve this\nproblem. In particular, we propose a Residual Feature Attention Block (RFAB),\ncontaining the channel attention, pixel attention, and residual learning\nmechanism with long and short skip connections. RFAB allows the network to\nfocus on learning high-frequency information while skipping low-frequency\ninformation on multi-hop connections. The channel and pixel attention mechanism\nconsiders each channel's different features and the uneven distribution of haze\nover different pixels in the image. The experimental results shows that the\nFA-Net propose by us provides higher accuracy, quantitatively and qualitatively\nand superiority to previous state-of-the-art methods.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:56:36 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Hamza","Muhammad",""],["Hawbani","Ammar",""],["Rehman","Sami Ul",""],["Wang","Xingfu",""],["Zhao","Liang",""]]}
+{"id":"2308.15869","submitter":"Huixia Luo","authors":"Kuan Li, Xunwu Hu, Ruixin Guo, Wenrui Jiang, Lingyong Zeng, Longfu Li,\n Peifeng Yu, Kangwang Wang, Chao Zhang, Shu Guo, Ruidan Zhong, Tao Xie, DaoXin\n Yao, Huixia Luo","title":"Superconductivity in the medium-entropy alloy TiVNbTa with a\n body-centered cubic structure","comments":"20 pages, 7 figures","journal-ref":"J.Phys.Chem.C 2023,127,16211-16218","doi":null,"report-no":null,"categories":"cond-mat.supr-con","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Here we report the TiVNbTa medium-entropy alloy (MEA) superconductor with the\nmixed 3d - 5d elements synthesized by an arc-melting method. The TiVNbTa\nmaterial has a body-centered cubic structure. The superconducting properties of\nTiVNbTa were studied by resistivity, magnetic susceptibility, and specific heat\nmeasurements. The experimental results show that the bulk superconducting phase\ntransition temperature of TiVNbTa is about 4.65 K, and the upper and lower\ncritical fields are 49.3(4) mT and 5.9(5) T, respectively, which indicates\nTiVNbTa is a type-II superconductor. First-principles calculations show that\nthe d electrons of Ti, V, Nb, and Ta atoms play a significant role near the\nFermi level. The results show TiVNbTa is a traditional s-wave superconductor.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:56:37 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Li","Kuan",""],["Hu","Xunwu",""],["Guo","Ruixin",""],["Jiang","Wenrui",""],["Zeng","Lingyong",""],["Li","Longfu",""],["Yu","Peifeng",""],["Wang","Kangwang",""],["Zhang","Chao",""],["Guo","Shu",""],["Zhong","Ruidan",""],["Xie","Tao",""],["Yao","DaoXin",""],["Luo","Huixia",""]]}
+{"id":"2308.15870","submitter":"EPTCS","authors":"Christian Hatschka (TU Vienna), Agata Ciabattoni (TU Vienna), Thomas\n Eiter (TU Vienna)","title":"Deontic Paradoxes in ASP with Weak Constraints","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 367-380","doi":"10.4204/EPTCS.385.39","report-no":null,"categories":"cs.LO cs.AI cs.CY cs.MA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The rise of powerful AI technology for a range of applications that are\nsensitive to legal, social, and ethical norms demands decision-making support\nin presence of norms and regulations. Normative reasoning is the realm of\ndeontic logics, that are challenged by well-known benchmark problems (deontic\nparadoxes), and lack efficient computational tools. In this paper, we use\nAnswer Set Programming (ASP) for addressing these shortcomings and showcase how\nto encode and resolve several well-known deontic paradoxes utilizing weak\nconstraints. By abstracting and generalizing this encoding, we present a\nmethodology for translating normative systems in ASP with weak constraints.\nThis methodology is applied to \"ethical\" versions of Pac-man, where we obtain a\ncomparable performance with related works, but ethically preferable results.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:56:54 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Hatschka","Christian","","TU Vienna"],["Ciabattoni","Agata","","TU Vienna"],["Eiter","Thomas","","TU Vienna"]]}
+{"id":"2308.15871","submitter":"Alexander Sushchyev","authors":"Alexander Sushchyev and Stefan Wessel","title":"Anomalous scaling corrections and quantum phase diagram of the\n Heisenberg antiferromagnet on the spatially anisotropic honeycomb lattice","comments":"8 pages, 12 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.str-el","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Using large-scale quantum Monte Carlo simulations, we determine the ground\nstate phase diagram of the spin-1/2 antiferromagnetic Heisenberg model on the\nhoneycomb lattice for the most generic case of three varying interaction\nstrengths along the different lattice directions. We identify continuous\nquantum phase transition lines that separate the long-range ordered\nantiferromagnetic regime from three distinct quantum-disordered phases, each\ncharacterized by dominant dimer-singlet formations. The finite-size behavior\nalong these phase transition lines exhibits anomalously large corrections to\nscaling, which we relate to similar recent findings in certain dimerized\nquantum spin systems and to singular one-dimensional limits in the model\nparameter space. We also comment more generally on the non-universality of\ncritical cumulant ratios in anisotropic systems and attempts to restore\nuniversality by varying the aspect ratio.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:57:36 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Sushchyev","Alexander",""],["Wessel","Stefan",""]]}
+{"id":"2308.15872","submitter":"Chong-Bin Chen","authors":"Chong-Bin Chen, Ziwei Wang and Siyi Zhou","title":"On the importance of heavy fields in pseudo-scalar inflation","comments":"36 pages, 7 figures","journal-ref":null,"doi":null,"report-no":"KOBE-COSMO-23-08","categories":"hep-th astro-ph.CO gr-qc","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Pseudo-scalar inflation coupled with U(1) gauge fields through the\nChern-Simons term has been extensively studied. However, new physics arising\nfrom UV theories may still influence the pseudo-scalar field at low-energy\nscales, potentially impacting predictions of inflation. In the realm of\neffective field theory (EFT), we investigated axion inflation, where operators\nfrom heavy fields are also present, in addition to the axion and gauge fields.\nThe integrated out fields have two significant effects: the non-linear\ndispersion regime and coupling heavy modes to the Chern-Simons term. The first\neffect changes the propagation of the curvature fluctuation, while the second\none results in additional operators that contribute to curvature fluctuation\nvia inverse decay. We derived the power spectrum and magnitude of equilateral\nnon-Gaussianity in this low-energy EFT. We found that the second effect could\nbecome significant as the mass of heavy fields approaches Hubble scale.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:57:37 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Chen","Chong-Bin",""],["Wang","Ziwei",""],["Zhou","Siyi",""]]}
+{"id":"2308.15873","submitter":"Geonho Hwang","authors":"Geonho Hwang","title":"Minimum Width for Deep, Narrow MLP: A Diffeomorphism and the Whitney\n Embedding Theorem Approach","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG math.GT","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Recently, there has been significant attention on determining the minimum\nwidth for the universal approximation property of deep, narrow MLPs. Among\nthese challenges, approximating a continuous function under the uniform norm is\nimportant and challenging, with the gap between its lower and upper bound being\nhard to narrow. In this regard, we propose a novel upper bound for the minimum\nwidth, given by $\\operatorname{max}(2d_x+1, d_y) + \\alpha(\\sigma)$, to achieve\nuniform approximation in deep narrow MLPs, where $0\\leq \\alpha(\\sigma)\\leq 2$\nrepresents the constant depending on the activation function. We demonstrate\nthis bound through two key proofs. First, we establish that deep, narrow MLPs\nwith little additional width can approximate diffeomorphisms. Secondly, we\nutilize the Whitney embedding theorem to show that any continuous function can\nbe approximated by embeddings, further decomposed into linear transformations\nand diffeomorphisms.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:58:23 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Hwang","Geonho",""]]}
+{"id":"2308.15874","submitter":"Yuanqing Gu","authors":"Yuanqing Gu, Xiao Zhang, Guowu Wei, Yan Chen","title":"Sarrus-inspired Deployable Polyhedral Mechanisms","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.RO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Deployable polyhedral mechanisms (DPMs) have witnessed flourishing growth in\nrecent years because of their potential applications in robotics, space\nexploration, structure engineering, etc. This paper firstly presents the\nconstruction, mobility and kinematics of a family of Sarrus-inspired deployable\npolyhedral mechanisms. By carrying out expansion operation and implanting\nSarrus linkages along the straight-line motion paths, deployable tetrahedral,\ncubic and dodecahedral mechanisms are identified and constructed following\ntetrahedral, octahedral and icosahedral symmetry, respectively. Three paired\ntransformations with synchronized radial motion between Platonic and\nArchimedean polyhedrons are revealed, and their significant symmetric\nproperties are perfectly remained in each work configuration. Subsequently,\nwith assistant of equivalent prismatic joints, the equivalent analysis strategy\nfor mobility of multiloop polyhedral mechanisms is proposed to significantly\nsimplify the calculation process. This paper hence presents the construction\nmethod and equivalent analysis of the Sarrus-inspired DPMs that are not only\nvaluable in theoretical investigation, but also have great potential in\npractical applications such as mechanical metamaterials, deployable\narchitectures and space exploration.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:58:24 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Gu","Yuanqing",""],["Zhang","Xiao",""],["Wei","Guowu",""],["Chen","Yan",""]]}
+{"id":"2308.15875","submitter":"Yi-Han Luo","authors":"Baoqi Shi, Yi-Han Luo, Wei Sun, Yue Hu, Jinbao Long, Xue Bai, Anting\n Wang and Junqiu Liu","title":"Frequency-comb-linearized, widely tunable lasers for coherent ranging","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.optics physics.app-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Tunable lasers, with the ability to continuously adjust their emission\nwavelengths, have found widespread applications across various fields such as\nbiomedical imaging, coherent ranging, optical communications and spectroscopy.\nIn these applications, a wide chirp range is advantageous for large spectral\ncoverage and high frequency resolution. Besides, the frequency accuracy and\nprecision also depend critically on the chirp linearity of the laser. While\nextensive efforts have been made on the development of many kinds of\nfrequency-agile, widely tunable, narrow-linewidth lasers, wideband yet precise\nmethods to characterize and to linearize laser chirp dynamics are also\ndemanded. Here we present an approach to characterize laser chirp dynamics\nusing an optical frequency comb. The instantaneous laser frequency is tracked\nover terahertz bandwidth with 1 MHz interval. Using this approach we calibrate\nthe chirp performance of twelve tunable lasers from Toptica, Santec, New Focus,\nEXFO and NKT that are commonly used in fiber optics and integrated photonics.\nIn addition, with acquired knowledge on laser chirp dynamics, we demonstrate a\nsimple frequency-linearization scheme that enables coherent ranging without any\noptical or electronic linearization units. Our approach not only presents a\nnovel wideband, high-resolution laser spectroscopy, but is also critical for\nsensing applications with ever-increasing requirements on performance.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 08:58:35 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Shi","Baoqi",""],["Luo","Yi-Han",""],["Sun","Wei",""],["Hu","Yue",""],["Long","Jinbao",""],["Bai","Xue",""],["Wang","Anting",""],["Liu","Junqiu",""]]}
+{"id":"2308.15876","submitter":"Eibun Senaha","authors":"Koichi Funakubo, Eibun Senaha","title":"Refined renormalization group improvement for thermally resummed\n effective potential","comments":"41 pages, 4 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We newly develop a renormalization group (RG) improvement for thermally\nresummed effective potentials. In this method, $\\beta$-functions are\nconsistently defined in resummed perturbation theories, so that order-by-order\nRG invariance is not spoiled after thermal resummation. With this improvement,\nscale dependences of phase transition quantities such as a critical\ntemperature, which are known to be notoriously large at the one-loop order, are\ngreatly reduced compared to calculations with the conventional\n$\\overline{\\text{MS}}$ scheme. By taking advantage of the RG invariance, we\nalso devise a resummation method that can incorporate potentially harmful large\nlogarithmic terms and temperature-dependent power corrections in a generic\nform. We point out that a resummed one-loop effective potential refined by the\nmethod can give results that agree with those obtained by resummed two-loop\neffective potentials within errors.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:00:03 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Funakubo","Koichi",""],["Senaha","Eibun",""]]}
+{"id":"2308.15877","submitter":"EPTCS","authors":"Emanuele De Angelis (IASI-CNR, Rome, Italy), Maurizio Proietti\n (IASI-CNR, Rome, Italy), Francesca Toni (Department of Computing, Imperial\n College London, UK)","title":"ABA Learning via ASP","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 1-8","doi":"10.4204/EPTCS.385.1","report-no":null,"categories":"cs.AI cs.LO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Recently, ABA Learning has been proposed as a form of symbolic machine\nlearning for drawing Assumption-Based Argumentation frameworks from background\nknowledge and positive and negative examples. We propose a novel method for\nimplementing ABA Learning using Answer Set Programming as a way to help guide\nRote Learning and generalisation in ABA Learning.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:02:29 GMT"}],"update_date":"2023-08-31","authors_parsed":[["De Angelis","Emanuele","","IASI-CNR, Rome, Italy"],["Proietti","Maurizio","","IASI-CNR, Rome, Italy"],["Toni","Francesca","","Department of Computing, Imperial\n College London, UK"]]}
+{"id":"2308.15878","submitter":"EPTCS","authors":"Yanhong A. Liu (Stony Brook University), Scott D. Stoller (Stony Brook\n University), Yi Tong (Stony Brook University), K. Tuncay Tekle (Stony Brook\n University)","title":"Benchmarking for Integrating Logic Rules with Everything Else","comments":"In Proceedings ICLP 2023, arXiv:2308.14898. arXiv admin note:\n substantial text overlap with arXiv:2205.15204","journal-ref":"EPTCS 385, 2023, pp. 12-26","doi":"10.4204/EPTCS.385.3","report-no":null,"categories":"cs.PL cs.LO cs.PF","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Integrating logic rules with other language features is increasingly sought\nafter for advanced applications that require knowledge-base capabilities. To\naddress this demand, increasingly more languages and extensions for such\nintegration have been developed. How to evaluate such languages?\n This paper describes a set of programming and performance benchmarks for\nevaluating languages supporting integrated use of rules and other features, and\nthe results of evaluating such an integrated language together with logic\nlanguages and languages not supporting logic rules.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:02:46 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Liu","Yanhong A.","","Stony Brook University"],["Stoller","Scott D.","","Stony Brook\n University"],["Tong","Yi","","Stony Brook University"],["Tekle","K. Tuncay","","Stony Brook\n University"]]}
+{"id":"2308.15879","submitter":"EPTCS","authors":"Mario Alviano (University of Calabria), Ly Ly Trieu (New Mexico State\n Universty), Tran Cao Son (New Mexico State Universty), Marcello Balduccini\n (Saint Joseph's University)","title":"Explanations for Answer Set Programming","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 27-40","doi":"10.4204/EPTCS.385.4","report-no":null,"categories":"cs.AI","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The paper presents an enhancement of xASP, a system that generates\nexplanation graphs for Answer Set Programming (ASP). Different from xASP, the\nnew system, xASP2, supports different clingo constructs like the choice rules,\nthe constraints, and the aggregates such as #sum, #min. This work formalizes\nand presents an explainable artificial intelligence system for a broad fragment\nof ASP, capable of shrinking as much as possible the set of assumptions and\npresenting explanations in terms of directed acyclic graphs.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:03:07 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Alviano","Mario","","University of Calabria"],["Trieu","Ly Ly","","New Mexico State\n Universty"],["Son","Tran Cao","","New Mexico State Universty"],["Balduccini","Marcello","","Saint Joseph's University"]]}
+{"id":"2308.15880","submitter":"EPTCS","authors":"Gonzague Yernaux (Faculty of Computer Science, University of Namur),\n Wim Vanhoof (Faculty of Computer Science, University of Namur)","title":"A Dataflow Analysis for Comparing and Reordering Predicate Arguments","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 41-54","doi":"10.4204/EPTCS.385.5","report-no":null,"categories":"cs.LO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this work, which is done in the context of a (moded) logic programming\nlanguage, we devise a data-flow analysis dedicated to computing what we call\nargument profiles. Such a profile essentially describes, for each argument of a\npredicate, its functionality, i.e. the operations in which the argument can be\ninvolved during an evaluation of the predicate, as well as how the argument\ncontributes to the consumption and/or construction of data values. While the\ncomputed argument profiles can be useful for applications in the context of\nprogram understanding (as each profile essentially provides a way to better\nunderstand the role of the argument), they more importantly provide a way to\ndiscern between arguments in a manner that is more fine-grained than what can\nbe done with other abstract characterizations such as types and modes. This is\nimportant for applications where one needs to identify correspondences between\nthe arguments of two or more different predicates that need to be compared,\nsuch as during clone detection. Moreover, since a total order can be defined on\nthe abstract domain of profiles, our analysis can be used for rearranging\npredicate arguments and order them according to their functionality,\nconstituting as such an essential ingredient for predicate normalization\ntechniques.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:03:25 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Yernaux","Gonzague","","Faculty of Computer Science, University of Namur"],["Vanhoof","Wim","","Faculty of Computer Science, University of Namur"]]}
+{"id":"2308.15881","submitter":"Valentina Corbetta","authors":"Valentina Corbetta, Regina Beets-Tan, and Wilson Silva","title":"Interpretability-guided Data Augmentation for Robust Segmentation in\n Multi-centre Colonoscopy Data","comments":"10 pages, 4 figures, 1 table, accepted at MICCAI 2023 Workshop on\n Machine Learning in Medical Imaging (MLMI)","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.IV cs.CV","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" Multi-centre colonoscopy images from various medical centres exhibit distinct\ncomplicating factors and overlays that impact the image content, contingent on\nthe specific acquisition centre. Existing Deep Segmentation networks struggle\nto achieve adequate generalizability in such data sets, and the currently\navailable data augmentation methods do not effectively address these sources of\ndata variability. As a solution, we introduce an innovative data augmentation\napproach centred on interpretability saliency maps, aimed at enhancing the\ngeneralizability of Deep Learning models within the realm of multi-centre\ncolonoscopy image segmentation. The proposed augmentation technique\ndemonstrates increased robustness across different segmentation models and\ndomains. Thorough testing on a publicly available multi-centre dataset for\npolyp detection demonstrates the effectiveness and versatility of our approach,\nwhich is observed both in quantitative and qualitative results. The code is\npublicly available at:\nhttps://github.com/nki-radiology/interpretability_augmentation\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:03:28 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Corbetta","Valentina",""],["Beets-Tan","Regina",""],["Silva","Wilson",""]]}
+{"id":"2308.15882","submitter":"Hongjun Gao","authors":"Shiduo Qu and Hongjun Gao","title":"The high-order approximation of SPDEs with multiplicative noise via\n amplitude equations","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.PR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The emphasis of this paper is to investigate the high-order approximation of\na class of SPDEs with cubic nonlinearity driven by multiplicative noise with\nthe help of the amplitude equations. The highlight of our work is that we\nimprove the convergence rate between the real solutions and the approximate\nones. Precisely, previous results often focused on deriving the approximate\nsolutions via the first-order amplitude equations. However, the approximate\nsolutions are constructed by the first-order amplitude equations and the\nsecond-order ones in this paper. And, we rigorously prove that such approximate\nsolutions enjoy improved convergence property. In order to illustrate this\ndemonstration more intuitively, we apply our main theorem to stochastic\nAllen-Cahn equation, and provide numerical analysis.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:03:39 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Qu","Shiduo",""],["Gao","Hongjun",""]]}
+{"id":"2308.15883","submitter":"EPTCS","authors":"Kilian R\\\"uckschlo{\\ss} (Ludwig-Maximilians Universit\\\"at), Felix\n Weitk\\\"amper (Ludwig-Maximilians Universit\\\"at)","title":"\"Would life be more interesting if I were in AI?\" Answering\n Counterfactuals based on Probabilistic Inductive Logic Programming","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 58-64","doi":"10.4204/EPTCS.385.7","report-no":null,"categories":"cs.LO cs.AI cs.LG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Probabilistic logic programs are logic programs where some facts hold with a\nspecified probability. Here, we investigate these programs with a causal\nframework that allows counterfactual queries. Learning the program structure\nfrom observational data is usually done through heuristic search relying on\nstatistical tests. However, these statistical tests lack information about the\ncausal mechanism generating the data, which makes it unfeasible to use the\nresulting programs for counterfactual reasoning. To address this, we propose a\nlanguage fragment that allows reconstructing a program from its induced\ndistribution. This further enables us to learn programs supporting\ncounterfactual queries.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:03:45 GMT"}],"update_date":"2023-08-31","authors_parsed":[["R\u00fcckschlo\u00df","Kilian","","Ludwig-Maximilians Universit\u00e4t"],["Weitk\u00e4mper","Felix","","Ludwig-Maximilians Universit\u00e4t"]]}
+{"id":"2308.15884","submitter":"Hoang Ta","authors":"Yeow Meng Chee, Hoang Ta, and Van Khu Vu","title":"Efficient Approximation of Quantum Channel Fidelity Exploiting Symmetry","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph cs.DS cs.IT math.IT","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Determining the optimal fidelity for the transmission of quantum information\nover noisy quantum channels is one of the central problems in quantum\ninformation theory. Recently, [Berta \\& et al., Mathematical Programming, 2021]\nintroduced an asymptotically converging semidefinite programming hierarchy of\nouter bounds for this quantity. However, the size of the semidefinite program\n(SDP) grows exponentially with respect to the level of the hierarchy, and thus\ncomputing the SDP directly is inefficient. In this work, by exploiting the\nsymmetries in the SDP, we show that, for fixed input and output dimensions, we\ncan compute the SDP in polynomial time in term of level of the hierarchy. As a\ndirect consequence of our result, the optimal fidelity can be approximated with\nan accuracy of $\\epsilon$ in a time that is polynomial in $1/\\epsilon$.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:03:45 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Chee","Yeow Meng",""],["Ta","Hoang",""],["Vu","Van Khu",""]]}
+{"id":"2308.15885","submitter":"EPTCS","authors":"Ghazal Afroozi Milani (University of Surrey), Daniel Cyrus (University\n of Surrey), Alireza Tamaddoni-Nezhad (University of Surrey)","title":"Towards One-Shot Learning for Text Classification using Inductive Logic\n Programming","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 69-79","doi":"10.4204/EPTCS.385.9","report-no":null,"categories":"cs.LG cs.CL cs.LO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" With the ever-increasing potential of AI to perform personalised tasks, it is\nbecoming essential to develop new machine learning techniques which are\ndata-efficient and do not require hundreds or thousands of training data. In\nthis paper, we explore an Inductive Logic Programming approach for one-shot\ntext classification. In particular, we explore the framework of\nMeta-Interpretive Learning (MIL), along with using common-sense background\nknowledge extracted from ConceptNet. Results indicate that MIL can learn text\nclassification rules from a small number of training examples. Moreover, the\nhigher complexity of chosen examples, the higher accuracy of the outcome.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:04:06 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Milani","Ghazal Afroozi","","University of Surrey"],["Cyrus","Daniel","","University\n of Surrey"],["Tamaddoni-Nezhad","Alireza","","University of Surrey"]]}
+{"id":"2308.15886","submitter":"Davide Perrone","authors":"Davide Perrone, Thomas Barreira, Alex Kehagias, Antonio Riotto","title":"Non-linear Black Hole Ringdowns: an Analytical Approach","comments":"23 pages, 4 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"gr-qc astro-ph.CO hep-ph","license":"http://creativecommons.org/publicdomain/zero/1.0/","abstract":" Due to the nature of gravity, non-linear effects are left imprinted in the\nquasi-normal modes generated in the ringdown phase of the merger of two black\nholes. We offer an analytical treatment of the quasi-normal modes at\nsecond-order in black hole perturbation theory which takes advantage from the\nfact that the non-linear sources are peaked around the light ring. As a\nbyproduct, we describe why the amplitude of the second-order mode relative to\nthe square of the first-order amplitude depends only weakly on the initial\ncondition of the problem.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:04:09 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Perrone","Davide",""],["Barreira","Thomas",""],["Kehagias","Alex",""],["Riotto","Antonio",""]]}
+{"id":"2308.15887","submitter":"EPTCS","authors":"Justin Brody (Franklin and Marshall College)","title":"On the Potential of CLIP for Compositional Logical Reasoning","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 80-86","doi":"10.4204/EPTCS.385.10","report-no":null,"categories":"cs.AI cs.CV cs.LG cs.LO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this paper we explore the possibility of using OpenAI's CLIP to perform\nlogically coherent grounded visual reasoning. To that end, we formalize our\nterms and give a geometric analysis of how embeddings in CLIP's latent space\nwould need to be configured in order for the system to be logically coherent.\nOur main conclusion is that, as usually configured, CLIP cannot perform such\nreasoning.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:04:24 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Brody","Justin","","Franklin and Marshall College"]]}
+{"id":"2308.15888","submitter":"EPTCS","authors":"Tomi Janhunen (Tampere University)","title":"Generalizing Level Ranking Constraints for Monotone and Convex\n Aggregates","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 101-115","doi":"10.4204/EPTCS.385.12","report-no":null,"categories":"cs.LO cs.AI","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In answer set programming (ASP), answer sets capture solutions to search\nproblems of interest and thus the efficient computation of answer sets is of\nutmost importance. One viable implementation strategy is provided by\ntranslation-based ASP where logic programs are translated into other KR\nformalisms such as Boolean satisfiability (SAT), SAT modulo theories (SMT), and\nmixed-integer programming (MIP). Consequently, existing solvers can be\nharnessed for the computation of answer sets. Many of the existing translations\nrely on program completion and level rankings to capture the minimality of\nanswer sets and default negation properly. In this work, we take level ranking\nconstraints into reconsideration, aiming at their generalizations to cover\naggregate-based extensions of ASP in more systematic way. By applying a number\nof program transformations, ranking constraints can be rewritten in a general\nform that preserves the structure of monotone and convex aggregates and thus\noffers a uniform basis for their incorporation into translation-based ASP. The\nresults open up new possibilities for the implementation of translators and\nsolver pipelines in practice.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:04:39 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Janhunen","Tomi","","Tampere University"]]}
+{"id":"2308.15889","submitter":"EPTCS","authors":"Andre Thevapalan, Gabriele Kern-Isberner","title":"Sorting Strategies for Interactive Conflict Resolution in ASP","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 116-128","doi":"10.4204/EPTCS.385.13","report-no":null,"categories":"cs.LO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Answer set programs in practice are often subject to change. This can lead to\ninconsistencies in the modified program due to conflicts between rules which\nare the results of the derivation of strongly complementary literals. To\nfacilitate the maintenance of consistency in answer set programs, in this paper\nwe continue work on a recently presented framework that implements interactive\nconflict resolution by extending the bodies of conflicting rules by suitable\nliterals, so-called $\\lambda$-extensions. More precisely, we present strategies\nto choose $\\lambda$-extensions that allow for resolving several conflicts at a\ntime in an order that aims at minimizing (cognitive) efforts. In particular, we\npresent a graphical representation of connections between conflicts and their\npossible solutions. Such a representation can be utilized to efficiently guide\nthe user through the conflict resolution process by displaying conflicts and\nsuggesting solutions in a suitable order.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:04:55 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Thevapalan","Andre",""],["Kern-Isberner","Gabriele",""]]}
+{"id":"2308.15890","submitter":"EPTCS","authors":"Paul Tarau (University of North Texas)","title":"Natlog: Embedding Logic Programming into the Python Deep-Learning\n Ecosystem","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 141-154","doi":"10.4204/EPTCS.385.15","report-no":null,"categories":"cs.AI cs.PL","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Driven by expressiveness commonalities of Python and our Python-based\nembedded logic-based language Natlog, we design high-level interaction patterns\nbetween equivalent language constructs and data types on the two sides.\n By directly connecting generators and backtracking, nested tuples and terms,\ncoroutines and first-class logic engines, reflection and meta-interpretation,\nwe enable logic-based language constructs to access the full power of the\nPython ecosystem.\n We show the effectiveness of our design via Natlog apps working as\norchestrators for JAX and Pytorch pipelines and as DCG-driven GPT3 and DALL.E\nprompt generators.\n Keyphrases: embedding of logic programming in the Python ecosystem,\nhigh-level inter-paradigm data exchanges, coroutining with logic engines,\nlogic-based neuro-symbolic computing, logic grammars as prompt-generators for\nLarge Language Models, logic-based neural network configuration and training.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:05:13 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Tarau","Paul","","University of North Texas"]]}
+{"id":"2308.15891","submitter":"EPTCS","authors":"Francesca Toni (Department of Computing, Imperial College London, UK),\n Nico Potyka (Department of Computing, Imperial College London, UK), Markus\n Ulbricht (Department of Computer Science, Leipzig University, Germany),\n Pietro Totis (Department of Computer Science, KU Leuven, Belgium)","title":"Understanding ProbLog as Probabilistic Argumentation","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 183-189","doi":"10.4204/EPTCS.385.18","report-no":null,"categories":"cs.AI","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" ProbLog is a popular probabilistic logic programming language/tool, widely\nused for applications requiring to deal with inherent uncertainties in\nstructured domains. In this paper we study connections between ProbLog and a\nvariant of another well-known formalism combining symbolic reasoning and\nreasoning under uncertainty, i.e. probabilistic argumentation. Specifically, we\nshow that ProbLog is an instance of a form of Probabilistic Abstract\nArgumentation (PAA) that builds upon Assumption-Based Argumentation (ABA). The\nconnections pave the way towards equipping ProbLog with alternative semantics,\ninherited from PAA/PABA, as well as obtaining novel argumentation semantics for\nPAA/PABA, leveraging on prior connections between ProbLog and argumentation.\nFurther, the connections pave the way towards novel forms of argumentative\nexplanations for ProbLog's outputs.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:05:32 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Toni","Francesca","","Department of Computing, Imperial College London, UK"],["Potyka","Nico","","Department of Computing, Imperial College London, UK"],["Ulbricht","Markus","","Department of Computer Science, Leipzig University, Germany"],["Totis","Pietro","","Department of Computer Science, KU Leuven, Belgium"]]}
+{"id":"2308.15892","submitter":"EPTCS","authors":"Emmanuelle Dietz (Airbus Central Research & Technology, Hein-Sass-Weg\n 22, 21129 Hamburg, Germany), Tobias Philipp (secunet Security Networks AG,\n Germany), Gerrit Schramm (Airbus Central Research & Technology, Hein-Sass-Weg\n 22, 21129 Hamburg, Germany), Andreas Zindel (Airbus Central Research &\n Technology, Hein-Sass-Weg 22, 21129 Hamburg, Germany)","title":"A Logic Programming Approach to Global Logistics in a Co-Design\n Environment","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 227-240","doi":"10.4204/EPTCS.385.23","report-no":null,"categories":"cs.AI cs.DB cs.LO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In a co-design environment changes need to be integrated quickly and in an\nautomated manner. This paper considers the challenge of creating and optimizing\na global logistics system for the construction of a passenger aircraft within a\nco-design approach with respect to key performance indicators (like cost, time\nor resilience). The product in question is an aircraft, comprised of multiple\ncomponents, manufactured at multiple sites worldwide. The goal is to find an\noptimal way to build the aircraft taking into consideration the requirements\nfor its industrial system. The main motivation for approaching this challenge\nis to develop the industrial system in tandem with the product and making it\nmore resilient against unforeseen events, reducing the risks of bottlenecks in\nthe supply chain. This risk reduction ensures continued efficiency and\noperational success. To address this challenging and complex task we have\nchosen Answer Set Programming (ASP) as the modeling language, formalizing the\nrelevant requirements of the investigated industrial system. The approach\npresented in this paper covers three main aspects: the extraction of the\nrelevant information from a knowledge graph, the translation into logic\nprograms and the computation of existing configurations guided by optimization\ncriteria. Finally we visualize the results for an effortless evaluation of\nthese models. Internal results seem promising and yielded several new research\nquestions for future improvements of the discussed use case.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:06:34 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Dietz","Emmanuelle","","Airbus Central Research & Technology, Hein-Sass-Weg\n 22, 21129 Hamburg, Germany"],["Philipp","Tobias","","secunet Security Networks AG,\n Germany"],["Schramm","Gerrit","","Airbus Central Research & Technology, Hein-Sass-Weg\n 22, 21129 Hamburg, Germany"],["Zindel","Andreas","","Airbus Central Research &\n Technology, Hein-Sass-Weg 22, 21129 Hamburg, Germany"]]}
+{"id":"2308.15893","submitter":"EPTCS","authors":"Theresa Swift (Johns Hopkins Applied Physics Lab), Carl Andersen","title":"The Janus System: Multi-paradigm Programming in Prolog and Python","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 241-255","doi":"10.4204/EPTCS.385.24","report-no":null,"categories":"cs.PL cs.LO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Python and Prolog express different programming paradigms, with different\nstrengths. Python is wildly popular because it is well-structured, easy to use,\nand mixes well with thousands of scientific and machine learning programs\nwritten in C. Prolog's logic-based approach provides powerful reasoning\ncapabilities, especially when combined with constraint evaluation,\nprobabilistic reasoning, well-founded negation, and other advances. Both\nlanguages have commonalities as well: both are usually written in C, both are\ndynamically typed, and both use data structures based on a small number of\nrecursive types.\n This paper describes the design and implementation of Janus, a system that\ntightly combines Prolog and Python into a single process. Janus bi-translates\ndata structures and offers performance of many hundreds of thousands of\nround-trip inter-language calls per second. Although Janus is still new, it has\nbeen used in commercial applications including natural language processing,\nvisual query answering and robotic automation. Janus was developed for XSB, but\nporting Janus code to a second Prolog has been straightforward, indicating that\nJanus is a tool that other Prologs may easily adopt.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:07:05 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Swift","Theresa","","Johns Hopkins Applied Physics Lab"],["Andersen","Carl",""]]}
+{"id":"2308.15894","submitter":"EPTCS","authors":"Stefano Forti (University of Pisa), Ahmad Ibrahim (University of\n Birmingham), Antonio Brogi (University of Pisa)","title":"Leasing the Cloud-Edge Continuum, \\`a la Carte","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 288-299","doi":"10.4204/EPTCS.385.28","report-no":null,"categories":"cs.DC","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Next-gen computing paradigms foresee deploying applications to virtualised\nresources along a continuum of Cloud-Edge nodes. Much literature focussed on\nhow to place applications onto such resources so as to meet their requirements.\nTo lease resources to application operators, infrastructure providers need to\nidentify a portion of their Cloud-Edge assets to meet set requirements. This\narticle proposes a novel declarative resource selection strategy prototyped in\nProlog to determine a suitable infrastructure portion that satisfies all\nrequirements. The proposal is showcased over a lifelike scenario.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:07:28 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Forti","Stefano","","University of Pisa"],["Ibrahim","Ahmad","","University of\n Birmingham"],["Brogi","Antonio","","University of Pisa"]]}
+{"id":"2308.15895","submitter":"EPTCS","authors":"Jakob Suchan (German Aerospace Center (DLR), Oldenburg, Germany),\n Jan-Patrick Osterloh (German Aerospace Center (DLR), Oldenburg, Germany)","title":"Assessing Drivers' Situation Awareness in Semi-Autonomous Vehicles: ASP\n based Characterisations of Driving Dynamics for Modelling Scene\n Interpretation and Projection","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 300-313","doi":"10.4204/EPTCS.385.29","report-no":null,"categories":"cs.AI cs.HC cs.LO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Semi-autonomous driving, as it is already available today and will eventually\nbecome even more accessible, implies the need for driver and automation system\nto reliably work together in order to ensure safe driving. A particular\nchallenge in this endeavour are situations in which the vehicle's automation is\nno longer able to drive and is thus requesting the human to take over. In these\nsituations the driver has to quickly build awareness for the traffic situation\nto be able to take over control and safely drive the car. Within this context\nwe present a software and hardware framework to asses how aware the driver is\nabout the situation and to provide human-centred assistance to help in building\nsituation awareness. The framework is developed as a modular system within the\nRobot Operating System (ROS) with modules for sensing the environment and the\ndriver state, modelling the driver's situation awareness, and for guiding the\ndriver's attention using specialized Human Machine Interfaces (HMIs).\n A particular focus of this paper is on an Answer Set Programming (ASP) based\napproach for modelling and reasoning about the driver's interpretation and\nprojection of the scene. This is based on scene data, as well as eye-tracking\ndata reflecting the scene elements observed by the driver. We present the\noverall application and discuss the role of semantic reasoning and modelling\ncognitive functions based on logic programming in such applications.\nFurthermore we present the ASP approach for interpretation and projection of\nthe driver's situation awareness and its integration within the overall system\nin the context of a real-world use-case in simulated as well as in real\ndriving.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:07:49 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Suchan","Jakob","","German Aerospace Center"],["Osterloh","Jan-Patrick","","German Aerospace Center"]]}
+{"id":"2308.15896","submitter":"EPTCS","authors":"Daniela Ferreiro, Jos\\'e F. Morales, Salvador Abreu, Manuel V.\n Hermenegildo","title":"Demonstrating (Hybrid) Active Logic Documents and the Ciao Prolog\n Playground, and an Application to Verification Tutorials","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 324-329","doi":"10.4204/EPTCS.385.33","report-no":null,"categories":"cs.PL","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Active Logic Documents (ALD) are web pages which incorporate embedded Prolog\nengines that run locally within the browser. ALD offers both a very easy way to\nadd click-to-run capabilities to any kind of teaching materials, independently\nof the tool used to generate them, as well as a tool-set for generating\nweb-based materials with embedded examples and exercises. Both leverage on\n(components of) the Ciao Prolog Playground. We present a demonstration of the\nALD approach and the Ciao Prolog Playground, as well as a recent extension to\nALDs to facilitate the integration of other tools into the system for creating\nHybrid Active Logic Documents (HALD). We also present a concrete application of\nthese technologies to the creation of tutorials for a program verification\ntool.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:08:10 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Ferreiro","Daniela",""],["Morales","Jos\u00e9 F.",""],["Abreu","Salvador",""],["Hermenegildo","Manuel V.",""]]}
+{"id":"2308.15897","submitter":"EPTCS","authors":"Alex Ivliev, Stefan Ellmauthaler, Lukas Gerlach, Maximilian Marx,\n Matthias Mei{\\ss}ner, Simon Meusel, Markus Kr\\\"otzsch","title":"Nemo: First Glimpse of a New Rule Engine","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 333-335","doi":"10.4204/EPTCS.385.35","report-no":null,"categories":"cs.AI cs.DB cs.LO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" This system demonstration presents Nemo, a new logic programming engine with\na focus on reliability and performance. Nemo is built for data-centric analytic\ncomputations, modelled in a fully declarative Datalog dialect. Its scalability\nfor these tasks matches or exceeds that of leading Datalog systems. We\ndemonstrate uses in reasoning with knowledge graphs and ontologies with 10^5 to\n10^8 input facts, all on a laptop. Nemo is written in Rust and available as a\nfree and open source tool.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:08:28 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Ivliev","Alex",""],["Ellmauthaler","Stefan",""],["Gerlach","Lukas",""],["Marx","Maximilian",""],["Mei\u00dfner","Matthias",""],["Meusel","Simon",""],["Kr\u00f6tzsch","Markus",""]]}
+{"id":"2308.15898","submitter":"EPTCS","authors":"Alessandro Dal Pal\\`u (Universit\\`a di Parma, Italy), Agostino Dovier\n (Universit\\`a di Udine, Italy), Andrea Formisano (Universit\\`a di Udine,\n Italy)","title":"An xAI Approach for Data-to-Text Processing with ASP","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 353-366","doi":"10.4204/EPTCS.385.38","report-no":null,"categories":"cs.AI","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The generation of natural language text from data series gained renewed\ninterest among AI research goals. Not surprisingly, the few proposals in the\nstate of the art are based on training some system, in order to produce a text\nthat describes and that is coherent to the data provided as input. Main\nchallenges of such approaches are the proper identification of \"what\" to say\n(the key descriptive elements to be addressed in the data) and \"how\" to say:\nthe correspondence and accuracy between data and text, the presence of\ncontradictions/redundancy in the text, the control of the amount of synthesis.\n This paper presents a framework that is compliant with xAI requirements. In\nparticular we model ASP/Python programs that enable an explicit control of\naccuracy errors and amount of synthesis, with proven optimal solutions. The\ntext description is hierarchically organized, in a top-down structure where\ntext is enriched with further details, according to logic rules. The generation\nof natural language descriptions' structure is also managed by logic rules.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:09:09 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Pal\u00f9","Alessandro Dal","","Universit\u00e0 di Parma, Italy"],["Dovier","Agostino","","Universit\u00e0 di Udine, Italy"],["Formisano","Andrea","","Universit\u00e0 di Udine,\n Italy"]]}
+{"id":"2308.15899","submitter":"EPTCS","authors":"Andrea Rafanelli (University of Pisa, Italy, University of L'Aquila,\n Italy)","title":"Beyond Traditional Neural Networks: Toward adding Reasoning and Learning\n Capabilities through Computational Logic Techniques","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 416-422","doi":"10.4204/EPTCS.385.51","report-no":null,"categories":"cs.AI cs.LG cs.LO cs.MA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Deep Learning (DL) models have become popular for solving complex problems,\nbut they have limitations such as the need for high-quality training data, lack\nof transparency, and robustness issues. Neuro-Symbolic AI has emerged as a\npromising approach combining the strengths of neural networks and symbolic\nreasoning. Symbolic knowledge injection (SKI) techniques are a popular method\nto incorporate symbolic knowledge into sub-symbolic systems. This work proposes\nsolutions to improve the knowledge injection process and integrate elements of\nML and logic into multi-agent systems (MAS).\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:09:42 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Rafanelli","Andrea","","University of Pisa, Italy, University of L'Aquila,\n Italy"]]}
+{"id":"2308.15900","submitter":"Sebastian Siebertz","authors":"Jona Dirks and Enna Gerhard and Mario Grobler and Amer E. Mouawad and\n Sebastian Siebertz","title":"Data reduction for directed feedback vertex set on graphs without long\n induced cycles","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DS","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We study reduction rules for Directed Feedback Vertex Set (DFVS) on instances\nwithout long cycles. A DFVS instance without cycles longer than $d$ naturally\ncorresponds to an instance of $d$-Hitting Set, however, enumerating all cycles\nin an $n$-vertex graph and then kernelizing the resulting $d$-Hitting Set\ninstance can be too costly, as already enumerating all cycles can take time\n$\\Omega(n^d)$. We show how to compute a kernel with at most $2^dk^d$ vertices\nand at most $d^{3d}k^d$ induced cycles of length at most $d$ (which however,\ncannot be enumerated efficiently), where $k$ is the size of a minimum directed\nfeedback vertex set. We then study classes of graphs whose underlying\nundirected graphs have bounded expansion or are nowhere dense; these are very\ngeneral classes of sparse graphs, containing e.g. classes excluding a minor or\na topological minor. We prove that for such classes without induced cycles of\nlength greater than $d$ we can compute a kernel with $O_d(k)$ and\n$O_{d,\\epsilon}(k^{1+\\epsilon})$ vertices for any $\\epsilon>0$, respectively,\nin time $O_d(n^{O(1)})$ and $O_{d,\\epsilon}(n^{O(1)})$, respectively. The most\nrestricted classes we consider are strongly connected planar graphs without any\n(induced or non-induced) long cycles. We show that these have bounded treewidth\nand hence DFVS on planar graphs without cycles of length greater than $d$ can\nbe solved in time $2^{O(d)}\\cdot n^{O(1)}$. We finally present a new data\nreduction rule for general DFVS and prove that the rule together with a few\nstandard rules subsumes all the rules applied by Bergougnoux et al. to obtain a\npolynomial kernel for DFVS[FVS], i.e., DFVS parameterized by the feedback\nvertex set number of the underlying (undirected) graph. We conclude by studying\nthe LP-based approximation of DFVS.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:09:52 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Dirks","Jona",""],["Gerhard","Enna",""],["Grobler","Mario",""],["Mouawad","Amer E.",""],["Siebertz","Sebastian",""]]}
+{"id":"2308.15901","submitter":"EPTCS","authors":"Tobias Geibinger (TU Wien)","title":"Explainable Answer-set Programming","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 423-429","doi":"10.4204/EPTCS.385.52","report-no":null,"categories":"cs.AI cs.LO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The interest in explainability in artificial intelligence (AI) is growing\nvastly due to the near ubiquitous state of AI in our lives and the increasing\ncomplexity of AI systems. Answer-set Programming (ASP) is used in many areas,\namong them are industrial optimisation, knowledge management or life sciences,\nand thus of great interest in the context of explainability. To ensure the\nsuccessful application of ASP as a problem-solving paradigm in the future, it\nis thus crucial to investigate explanations for ASP solutions. Such an\nexplanation generally tries to give an answer to the question of why something\nis, respectively is not, part of the decision produced or solution to the\nformulated problem. Although several explanation approaches for ASP exist,\nalmost all of them lack support for certain language features that are used in\npractice. Most notably, this encompasses the various ASP extensions that have\nbeen developed in the recent years to enable reasoning over theories, external\ncomputations, or neural networks. This project aims to fill some of these gaps\nand contribute to the state of the art in explainable ASP. We tackle this by\nextending the language support of existing approaches but also by the\ndevelopment of novel explanation formalisms, like contrastive explanations.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:09:57 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Geibinger","Tobias","","TU Wien"]]}
+{"id":"2308.15902","submitter":"Ming Li","authors":"Yijia Li, Ming Li, MingYi Gao, Chang-Ling Zou, Chun-Hua Dong, Jin Lu,\n Yali Qin, XiaoNiu Yang, Qi Xuan and Hongliang Ren","title":"Photonic time-delayed reservoir computing based on series coupled\n microring resonators with high memory capacity","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.optics cs.ET","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" On-chip microring resonators (MRRs) have been proposed to construct the\ntime-delayed reservoir computing (RC), which offers promising configurations\navailable for computation with high scalability, high-density computing, and\neasy fabrication. A single MRR, however, is inadequate to supply enough memory\nfor the computational task with diverse memory requirements. Large memory needs\nare met by the MRR with optical feedback waveguide, but at the expense of its\nlarge footprint. In the structure, the ultra-long optical feedback waveguide\nsubstantially limits the scalable photonic RC integrated designs. In this\npaper, a time-delayed RC is proposed by utilizing a silicon-based nonlinear MRR\nin conjunction with an array of linear MRRs. These linear MRRs possess a high\nquality factor, providing sufficient memory capacity for the entire system. We\nquantitatively analyze and assess the proposed RC structure's performance on\nthree classical tasks with diverse memory requirements, i.e., the Narma 10,\nMackey-Glass, and Santa Fe chaotic timeseries prediction tasks. The proposed\nsystem exhibits comparable performance to the MRR with an ultra-long optical\nfeedback waveguide-based system when it comes to handling the Narma 10 task,\nwhich requires a significant memory capacity. Nevertheless, the overall length\nof these linear MRRs is significantly smaller, by three orders of magnitude,\ncompared to the ultra-long feedback waveguide in the MRR with optical feedback\nwaveguide-based system. The compactness of this structure has significant\nimplications for the scalability and seamless integration of photonic RC.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:10:39 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Li","Yijia",""],["Li","Ming",""],["Gao","MingYi",""],["Zou","Chang-Ling",""],["Dong","Chun-Hua",""],["Lu","Jin",""],["Qin","Yali",""],["Yang","XiaoNiu",""],["Xuan","Qi",""],["Ren","Hongliang",""]]}
+{"id":"2308.15903","submitter":"Steen H. Hansen","authors":"Fabiano Tracanna and Steen H. Hansen","title":"The destiny of Dark Matter","comments":"15 pages, 5 figures, accepted by ApJ","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The majority of baryons, which account for $15\\%$ of the matter in the\nUniverse, will end their lives as carbon and oxygen inside cold black dwarfs.\nDark matter (DM) makes up the remaining $85\\%$ of the matter in the universe,\nhowever, the fate of DM is unknown. Here we show that the destiny of purely\ngravitationally interacting DM particles follows one of two possible routes.\nThe first possible route, the \"radiation-destiny\" scenario, is that massive DM\nparticles lose sufficient energy through gravitational radiation causing them\nto spiral into a supermassive black hole that ultimately disappears through\nHawking radiation. The second possible route, the \"drifting-alone\" destiny,\napplies to lighter DM particles, where only the central DM halo region spirals\ninto the central BH which is then Hawking radiated away. The rest of the DM\nhalo is ripped apart by the accelerated expansion of the Universe.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:10:43 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Tracanna","Fabiano",""],["Hansen","Steen H.",""]]}
+{"id":"2308.15904","submitter":"Asahi Takaoka","authors":"Asahi Takaoka","title":"Forbidden patterns of graphs 12-representable by pattern-avoiding words","comments":"21 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO cs.DM","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" A graph $G = (\\{1, 2, \\ldots, n\\}, E)$ is $12$-representable if there is a\nword $w$ over $\\{1, 2, \\ldots, n\\}$ such that two vertices $i$ and $j$ with $i\n< j$ are adjacent if and only if every $j$ occurs before every $i$ in $w$.\nThese graphs have been shown to be equivalent to the complements of\nsimple-triangle graphs. This equivalence provides a characterization in terms\nof forbidden patterns in vertex orderings as well as a polynomial-time\nrecognition algorithm. The class of $12$-representable graphs was introduced by\nJones et al. (2015) as a variant of word-representable graphs. A general\nresearch direction for word-representable graphs suggested by Kitaev and Lozin\n(2015) is to study graphs representable by some specific types of words. For\ninstance, Gao, Kitaev, and Zhang (2017) and Mandelshtam (2019) investigated\nword-representable graphs represented by pattern-avoiding words. Following this\nresearch direction, this paper studies $12$-representable graphs represented by\nwords that avoid a pattern $p$. Such graphs are trivial when $p$ is of length\n$2$. When $p = 111$, $121$, $231$, and $321$, the classes of such graphs are\nequivalent to well-known classes, such as trivially perfect graphs and\nbipartite permutation graphs. For the cases where $p = 123$, $132$, and $211$,\nthis paper provides forbidden pattern characterizations.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:14:42 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Takaoka","Asahi",""]]}
+{"id":"2308.15905","submitter":"Patryk Lipka-Bartosik","authors":"Patryk Lipka-Bartosik, Mart\\'i Perarnau-Llobet, Nicolas Brunner","title":"Thermodynamic Computing via Autonomous Quantum Thermal Machines","comments":"12 + 4 pages. Comments welcome!","journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph cond-mat.mes-hall cond-mat.stat-mech cs.AI cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We develop a physics-based model for classical computation based on\nautonomous quantum thermal machines. These machines consist of few interacting\nquantum bits (qubits) connected to several environments at different\ntemperatures. Heat flows through the machine are here exploited for computing.\nThe process starts by setting the temperatures of the environments according to\nthe logical input. The machine evolves, eventually reaching a non-equilibrium\nsteady state, from which the output of the computation can be determined via\nthe temperature of an auxilliary finite-size reservoir. Such a machine, which\nwe term a \"thermodynamic neuron\", can implement any linearly-separable\nfunction, and we discuss explicitly the cases of NOT, 3-majority and NOR gates.\nIn turn, we show that a network of thermodynamic neurons can perform any\ndesired function. We discuss the close connection between our model and\nartificial neurons (perceptrons), and argue that our model provides an\nalternative physics-based analogue implementation of neural networks, and more\ngenerally a platform for thermodynamic computing.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:15:41 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Lipka-Bartosik","Patryk",""],["Perarnau-Llobet","Mart\u00ed",""],["Brunner","Nicolas",""]]}
+{"id":"2308.15906","submitter":"Inyoung Cheong","authors":"Inyoung Cheong, Aylin Caliskan, Tadayoshi Kohno","title":"Is the U.S. Legal System Ready for AI's Challenges to Human Values?","comments":"26 pages, 7 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CY cs.AI cs.CL","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" Our interdisciplinary study investigates how effectively U.S. laws confront\nthe challenges posed by Generative AI to human values. Through an analysis of\ndiverse hypothetical scenarios crafted during an expert workshop, we have\nidentified notable gaps and uncertainties within the existing legal framework\nregarding the protection of fundamental values, such as autonomy, privacy,\ndignity, diversity, equality, and physical/mental well-being. Constitutional\nand civil rights, it appears, may not provide sufficient protection against\nAI-generated discriminatory outputs. Furthermore, even if we exclude the\nliability shield provided by Section 230, proving causation for defamation and\nproduct liability claims is a challenging endeavor due to the intricate and\nopaque nature of AI systems. To address the unique and unforeseeable threats\nposed by Generative AI, we advocate for legal frameworks that evolve to\nrecognize new threat and provide proactive, auditable guidelines to industry\nstakeholders. Addressing these issues requires deep interdisciplinary\ncollaborations to identify harms, values, and mitigation strategies.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:19:06 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Cheong","Inyoung",""],["Caliskan","Aylin",""],["Kohno","Tadayoshi",""]]}
+{"id":"2308.15907","submitter":"Hugo Rossignol","authors":"Hugo Rossignol, Michail Minotakis, Matteo Cobelli, Stefano Sanvito","title":"Machine-Learning-Assisted Construction of Ternary Convex Hull Diagrams","comments":"14 pages, 9 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mtrl-sci","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In the search for novel intermetallic ternary alloys, much of the effort goes\ninto performing a large number of ab-initio calculations covering a wide range\nof compositions and structures. These are essential to build a reliable convex\nhull diagram. While density functional theory (DFT) provides accurate\npredictions for many systems, its computational overheads set a throughput\nlimit on the number of hypothetical phases that can be probed. Here, we\ndemonstrate how an ensemble of machine-learning spectral neighbor-analysis\npotentials (SNAPs) can be integrated into a workflow for the construction of\naccurate ternary convex hull diagrams, highlighting regions fertile for\nmaterials discovery. Our workflow relies on using available binary-alloy data\nboth to train the SNAP models and to create prototypes for ternary phases. From\nthe prototype structures, all unique ternary decorations are created and used\nto form a pool of candidate compounds. The SNAPs are then used to pre-relax the\nstructures and screen the most favourable prototypes, before using DFT to build\nthe final phase diagram. As constructed, the proposed workflow relies on no\nextra first-principles data to train the machine-learning surrogate model and\nyields a DFT-level accurate convex hull. We demonstrate its efficacy by\ninvestigating the Cu-Ag-Au and Mo-Ta-W ternary systems.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:22:37 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Rossignol","Hugo",""],["Minotakis","Michail",""],["Cobelli","Matteo",""],["Sanvito","Stefano",""]]}
+{"id":"2308.15908","submitter":"Ivan de Martino","authors":"Ivan De Martino","title":"Dynamics of Dwarf Galaxies in Scalar-Tensor-Vector-Gravity","comments":"11 Pages, 4 Figure, 2 Tables. Accepted on Physical Review D","journal-ref":"Phys. Rev. D 108, 044074 (2023)","doi":"10.1103/PhysRevD.108.044074","report-no":null,"categories":"gr-qc astro-ph.GA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We have investigated whether the Scalar-Tensor-Vector Gravity theory (STVG)\nmay explain the kinematic of stars in dwarf spheroidal galaxies. STVG modifies\nGeneral Relativity by adding extra scalar and vector fields with the main aim\nof replacing dark matter in astrophysical self-gravitating systems. The\nweak-field limit of STVG brings a Yukawa-like modification to the Newtonian\ngravitational potential. The modification is modulated by two parameters,\n$\\alpha$ and $\\mu$, that represent a redefinition of the gravitational coupling\nconstant and the mass of the additional vector fields, respectively. Thus,\nadopting the modified gravitational potential arising in the weak-field limit\nof STVG, we have solved the spherical Jeans equation to predict the\nline-of-sight velocity dispersion profiles of eight dwarf spheroidal galaxies\norbiting around the Milky Way. The predicted profiles are then compared to the\ndata using a Monte Carlo Markov Chain algorithm. Our results pointed out some\ntensions on the $\\alpha$ parameter within the data set, while comparison with\nprevious analysis shows the effectiveness of STVG in replacing dark matter with\nextra massive fields. Further improvements will require more sophisticated\nmodelling of the line-of-sight velocity dispersion which will be possible as\nsoon as high-precision astrometric data in dwarf spheroidals will become\navailable.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:22:46 GMT"}],"update_date":"2023-08-31","authors_parsed":[["De Martino","Ivan",""]]}
+{"id":"2308.15909","submitter":"Denis Obrezkov","authors":"Denis Obrezkov, Allard Oelen, and S\\\"oren Auer","title":"An Approach to Evaluate User Interfaces in a Scholarly Knowledge\n Communication Domain","comments":"5 pages, 2 figures","journal-ref":"19th IFIP TC13 International Conference, York, UK, August 28 -\n September 1, 2023, Proceedings, Part IV","doi":"10.1007/978-3-031-42293-5_44","report-no":null,"categories":"cs.DL","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The amount of research articles produced every day is overwhelming: scholarly\nknowledge is getting harder to communicate and easier to get lost. A possible\nsolution is to represent the information in knowledge graphs: structures\nrepresenting knowledge in networks of entities, their semantic types, and\nrelationships between them. But this solution has its own drawback: given its\nvery specific task, it requires new methods for designing and evaluating user\ninterfaces. In this paper, we propose an approach for user interface evaluation\nin the knowledge communication domain. We base our methodology on the\nwell-established Cognitive Walkthough approach but employ a different set of\nquestions, tailoring the method towards domain-specific needs. We demonstrate\nour approach on a scholarly knowledge graph implementation called Open Research\nKnowledge Graph (ORKG).\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:36:35 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Obrezkov","Denis",""],["Oelen","Allard",""],["Auer","S\u00f6ren",""]]}
+{"id":"2308.15910","submitter":"Kaoru Irie","authors":"Riku Masuda and Kaoru Irie","title":"Sequential Bayesian Predictive Synthesis","comments":"31 pages, 15 figures, 1 table","journal-ref":null,"doi":null,"report-no":null,"categories":"stat.ME stat.CO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Dynamic Bayesian predictive synthesis is a formal approach to coherently\nsynthesizing multiple predictive distributions into a single distribution. In\nsequential analysis, the computation of the synthesized predictive distribution\nhas heavily relied on the repeated use of the Markov chain Monte Carlo method.\nThe sequential Monte Carlo method in this problem has also been studied but is\nlimited to a subclass of linear synthesis with weight constraint but no\nintercept. In this study, we provide a custom, Rao-Blackwellized particle\nfilter for the linear and Gaussian synthesis, supplemented by timely\ninterventions by the MCMC method to avoid the problem of particle degeneracy.\nIn an example of predicting US inflation rate, where a sudden burst is observed\nin 2020-2022, we confirm the slow adaptation of the predictive distribution. To\novercome this problem, we propose the estimation/averaging of parameters called\ndiscount factors based on the power-discounted likelihoods, which becomes\nfeasible due to the fast computation by the proposed method.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:38:04 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Masuda","Riku",""],["Irie","Kaoru",""]]}
+{"id":"2308.15911","submitter":"Stefan Sylvius Wagner","authors":"Stefan Sylvius Wagner, Peter Arndt, Jan Robine, Stefan Harmeling","title":"Cyclophobic Reinforcement Learning","comments":"Published in Transactions on Machine Learning Research (08/2023)","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI cs.RO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In environments with sparse rewards, finding a good inductive bias for\nexploration is crucial to the agent's success. However, there are two competing\ngoals: novelty search and systematic exploration. While existing approaches\nsuch as curiosity-driven exploration find novelty, they sometimes do not\nsystematically explore the whole state space, akin to depth-first-search vs\nbreadth-first-search. In this paper, we propose a new intrinsic reward that is\ncyclophobic, i.e., it does not reward novelty, but punishes redundancy by\navoiding cycles. Augmenting the cyclophobic intrinsic reward with a sequence of\nhierarchical representations based on the agent's cropped observations we are\nable to achieve excellent results in the MiniGrid and MiniHack environments.\nBoth are particularly hard, as they require complex interactions with different\nobjects in order to be solved. Detailed comparisons with previous approaches\nand thorough ablation studies show that our newly proposed cyclophobic\nreinforcement learning is more sample efficient than other state of the art\nmethods in a variety of tasks.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:38:44 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Wagner","Stefan Sylvius",""],["Arndt","Peter",""],["Robine","Jan",""],["Harmeling","Stefan",""]]}
+{"id":"2308.15912","submitter":"Fleur Seuren","authors":"Fleur Seuren, Santiago A. Triana, J\\'er\\'emy Rekier, Ankit Barik, Tim\n Van Hoolst","title":"Effects of the librationally induced flow in Mercury's fluid core with\n an outer stably stratified layer","comments":"26 pages, 16 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.EP physics.flu-dyn","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Observational constraints on Mercury's thermal evolution and magnetic field\nindicate that the top part of the fluid core is stably stratified. Here we\ncompute how a stable layer affects the core flow in response to Mercury's main\n88-day longitudinal libration, assuming various degrees of stratification, and\nstudy whether the core flow can modify the libration amplitude through viscous\nand electromagnetic torques acting on the core-mantle boundary (CMB). We show\nthat the core flow strongly depends on the strength of the stratification near\nthe CMB but that the influence of core motions on libration is negligible with\nor without a stably stratified layer. A stably stratified layer at the top of\nthe core can however prevent resonant behaviour with gravito-inertial modes by\nimpeding radial motions and promote a strong horizontal flow near the CMB. The\nlibrationally driven flow is likely turbulent and might produce a\nnon-axisymmetric induced magnetic field with a strength of the order of 1$\\%$\nof Mercury's dipolar field.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:39:40 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Seuren","Fleur",""],["Triana","Santiago A.",""],["Rekier","J\u00e9r\u00e9my",""],["Barik","Ankit",""],["Van Hoolst","Tim",""]]}
+{"id":"2308.15913","submitter":"Rohit Kumar","authors":"Vasudeva Rao Allu, Rohit Kumar","title":"Bloch theorem in higher dimension","comments":"11","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this paper, we first define a class of holomorphic mappings in several\nvariables which contains the class of Bochner $K$- mappings and give the lower\nestimates for the Bloch's constant for this class. We show that if $f$ is a\nBochner $K$-mapping defined on the unit ball $B^n$ into $\\IC^n$ then $f(B^n)$\ncontains a schlicht ball of radius atleast $1/12K^{2n-1}$.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:41:17 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Allu","Vasudeva Rao",""],["Kumar","Rohit",""]]}
+{"id":"2308.15914","submitter":"Vince Grolmusz","authors":"Kinga K. Nagy, Krist\\'of Tak\\'acs, Imre N\\'emeth, B\\'alint Varga,\n Vince Grolmusz, M\\'onika Moln\\'ar, Be\\'ata G. V\\'ertessy","title":"Novel enzymes for biodegradation of polycyclic aromatic hydrocarbons:\n metagenomics-linked identification followed by functional analysis","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"q-bio.BM","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Polycyclic aromatic hydrocarbons (PAHs) are highly toxic, carcinogenic\nsubstances. On soils contaminated with PAHs, crop cultivation, animal husbandry\nand even the survival of microflora in the soil are greatly perturbed,\ndepending on the degree of contamination. Most microorganisms cannot tolerate\nPAH-contaminated soils, however, some microbial strains can adapt to these\nharsh conditions and survive on contaminated soils. Analysis of the metagenomes\nof contaminated environmental samples may lead to discovery of PAH-degrading\nenzymes suitable for green biotechnology methodologies ranging from\nbiocatalysis to pollution control. In the present study, our goal was to apply\na metagenomic data search to identify efficient novel enzymes in remediation of\nPAH-contaminated soils. The metagenomic hits were further analyzed using a set\nof bioinformatics tools to select protein sequences predicted to encode\nwell-folded soluble enzymes. Three novel enzymes (two dioxygenases and one\nperoxidase) were cloned and used in soil remediation microcosms experiments.\nThe novel enzymes were found to be efficient for degradation of naphthalene and\nphenanthrene. Adding the inorganic oxidant CaO2 further increased the degrading\npotential of the novel enzymes for anthracene and pyrene. We conclude that\nmetagenome mining paired with bioinformatic predictions, structural modelling\nand functional assays constitutes a powerful approach towards novel enzymes for\nsoil remediation.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:42:03 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Nagy","Kinga K.",""],["Tak\u00e1cs","Krist\u00f3f",""],["N\u00e9meth","Imre",""],["Varga","B\u00e1lint",""],["Grolmusz","Vince",""],["Moln\u00e1r","M\u00f3nika",""],["V\u00e9rtessy","Be\u00e1ta G.",""]]}
+{"id":"2308.15915","submitter":"Johannes Sicks","authors":"Johannes Sicks and Heiko Rieger","title":"The double-well Bose Hubbard model with nearest-neighbor and\n cavity-mediated long-range interactions","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.quant-gas cond-mat.stat-mech","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" We consider a one-dimensional Bose-Hubbard model (BHM) with on-site\ndouble-well potentials and study the effect of nearest-neighbor repulsion and\ncavity-mediated long-range interactions by calculating the ground-state phase\ndiagrams with quantum Monte-Carlo simulations. We show that when the intra-well\nrepulsion is as strong as the on-site repulsion a dimerized Mott insulator\nphase appears at the tip of the dimerized Density Wave phase for a density of\none particle per double well. Furthermore, we find a dimerized Haldane\ninsulator phase in the double-well BHM with nearest-neighbor interaction, which\nis identical to a dimerized BHM with repulsive interactions up to the third\nneighbor.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:42:32 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Sicks","Johannes",""],["Rieger","Heiko",""]]}
+{"id":"2308.15916","submitter":"Tim Lengler","authors":"Tim Lengler, Dieter Lott, Gudrid Moortgat-Pick, Sabine Riemann","title":"Target tests for the ILC positron source Talk presented at the\n International Workshop on Future Linear Colliders (LCWS2023)","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.acc-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The positron source is an essential component of the International Linear\nCollider (ILC) and is an area that poses some design challenges. One\nconsideration is the material for the target, where the 1014 positrons per\nsecond for the ILC are generated. The potential material would need to be able\nto resist the high load created by the intense high energy photon beam. One of\nsuch candidates is the titanium alloy Ti-6Al-4V, for which the results of\nmaterial tests with 3.5 MeV electrons are shown. The material was characterized\nafter the irradiation by high-energy X-ray diffraction (HE-XRD) and changes\ncaused by the irradiation to the crystal structure were studied. These tests\nrevealed there was only minimal change in the phase fractions and crystal\nstructure of the material under conditions as expected for the ILC.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:44:17 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Lengler","Tim",""],["Lott","Dieter",""],["Moortgat-Pick","Gudrid",""],["Riemann","Sabine",""]]}
+{"id":"2308.15917","submitter":"Konstantin Shibin","authors":"Konstantin Shibin, Maksim Jenihhin, Artur Jutman, Sergei Devadze,\n Anton Tsertov","title":"On-Chip Sensors Data Collection and Analysis for SoC Health Management","comments":"6 pages, 3 figures. This paper is accepted at the 36th IEEE\n International Symposium on Defect and Fault Tolerance in VLSI and\n Nanotechnology Systems (DFT) 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Data produced by on-chip sensors in modern SoCs contains a large amount of\ninformation such as occurring faults, aging status, accumulated radiation dose,\nperformance characteristics, environmental and other operational parameters.\nSuch information provides insight into the overall health of a system's\nhardware as well as the operability of individual modules. This gives a chance\nto mitigate faults and avoid using faulty units, thus enabling hardware health\nmanagement. Raw data from embedded sensors cannot be immediately used to\nperform health management tasks. In most cases, the information about occurred\nfaults needs to be analyzed taking into account the history of the previously\nreported fault events and other collected statistics. For this purpose, we\npropose a special structure called Health Map (HM) that holds the information\nabout functional resources, occurring faults and maps relationships between\nthese. In addition, we propose algorithms for aggregation and classification of\ndata received from on-chip sensors. The proposed Health Map contains detailed\ninformation on a particular system level (e.g., module, SoC, board) that can be\ncompiled into a summary of hardware health status that in its turn enables\ndistributed hierarchical health management by using this information at a\nhigher level of system hierarchy, thus increasing the system's availability and\neffective lifetime.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:44:28 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Shibin","Konstantin",""],["Jenihhin","Maksim",""],["Jutman","Artur",""],["Devadze","Sergei",""],["Tsertov","Anton",""]]}
+{"id":"2308.15918","submitter":"Zhuo-Xu Cui","authors":"Zhuo-Xu Cui, Congcong Liu, Xiaohong Fan, Chentao Cao, Jing Cheng,\n Qingyong Zhu, Yuanyuan Liu, Sen Jia, Yihang Zhou, Haifeng Wang, Yanjie Zhu,\n Jianping Zhang, Qiegen Liu, Dong Liang","title":"Physics-Informed DeepMRI: Bridging the Gap from Heat Diffusion to\n k-Space Interpolation","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In the field of parallel imaging (PI), alongside image-domain regularization\nmethods, substantial research has been dedicated to exploring $k$-space\ninterpolation. However, the interpretability of these methods remains an\nunresolved issue. Furthermore, these approaches currently face acceleration\nlimitations that are comparable to those experienced by image-domain methods.\nIn order to enhance interpretability and overcome the acceleration limitations,\nthis paper introduces an interpretable framework that unifies both $k$-space\ninterpolation techniques and image-domain methods, grounded in the physical\nprinciples of heat diffusion equations. Building upon this foundational\nframework, a novel $k$-space interpolation method is proposed. Specifically, we\nmodel the process of high-frequency information attenuation in $k$-space as a\nheat diffusion equation, while the effort to reconstruct high-frequency\ninformation from low-frequency regions can be conceptualized as a reverse heat\nequation. However, solving the reverse heat equation poses a challenging\ninverse problem. To tackle this challenge, we modify the heat equation to align\nwith the principles of magnetic resonance PI physics and employ the score-based\ngenerative method to precisely execute the modified reverse heat diffusion.\nFinally, experimental validation conducted on publicly available datasets\ndemonstrates the superiority of the proposed approach over traditional\n$k$-space interpolation methods, deep learning-based $k$-space interpolation\nmethods, and conventional diffusion models in terms of reconstruction accuracy,\nparticularly in high-frequency regions.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:45:14 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Cui","Zhuo-Xu",""],["Liu","Congcong",""],["Fan","Xiaohong",""],["Cao","Chentao",""],["Cheng","Jing",""],["Zhu","Qingyong",""],["Liu","Yuanyuan",""],["Jia","Sen",""],["Zhou","Yihang",""],["Wang","Haifeng",""],["Zhu","Yanjie",""],["Zhang","Jianping",""],["Liu","Qiegen",""],["Liang","Dong",""]]}
+{"id":"2308.15919","submitter":"Sunayana Maben","authors":"Sunayana Maben, Simon W. Campbell, Yerra Bharat Kumar, Bacham E.\n Reddy, Gang Zhao","title":"Asteroseismology sheds light on the origin of carbon-deficient red\n giants: likely merger products and linked to the Li-rich giants","comments":"27 pages, 14 figures, accepted by ApJ","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.SR astro-ph.GA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Carbon-deficient red giants (CDGs) are a peculiar class of stars that have\neluded explanation for decades. We aim to better characterise CDGs by using\nasteroseismology (Kepler, TESS) combined with spectroscopy (APOGEE, LAMOST),\nand astrometry (Gaia). We discovered 15 new CDGs in the Kepler field, and\nconfirm that CDGs are rare, being only $0.15\\%$ of our background sample.\nRemarkably, we find that our CDGs are almost exclusively in the red clump (RC)\nphase. Asteroseismic masses reveal that our CDGs are primarily low-mass stars\n($M \\lesssim$ 2~M$_{\\odot}$), in contrast to previous studies which suggested\nthey are intermediate mass ($M = 2.5 - 5.0~\\rm M_{\\odot}$) based on HR\ndiagrams. A very high fraction of our CDGs ($50\\%$) are also Li-rich giants. We\nobserve a bimodal distribution of luminosity in our CDGs, with one group having\nnormal RC luminosity and the other being a factor of two more luminous than\nexpected for their masses. We find demarcations in chemical patterns and\nluminosities which lead us to split them into three groups: (i)\nnormal-luminosity CDGs, (ii) over-luminous CDGs, and (iii) over-luminous\nhighly-polluted CDGs. We conclude that a merger of a helium white dwarf with an\nRGB star is the most likely scenario for the two groups of over-luminous stars.\nBinary mass-transfer from intermediate-mass AGB stars is a possibility for the\nhighly-polluted over-luminous group. For the normal-luminosity CDGs, we cannot\ndistinguish between core He-flash pollution or lower-mass merger scenarios. Due\nto the overlap with the CDGs, Li-rich giants may have similar formation\nchannels.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:47:47 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Maben","Sunayana",""],["Campbell","Simon W.",""],["Kumar","Yerra Bharat",""],["Reddy","Bacham E.",""],["Zhao","Gang",""]]}
+{"id":"2308.15920","submitter":"Silvio Peroni","authors":"Roberto Balzani, Sebastian Barzaghi, Gabriele Bitelli, Federica\n Bonifazi, Alice Bordignon, Luca Cipriani, Simona Colitti, Federica Collina,\n Marilena Daquino, Francesca Fabbri, Bruno Fanini, Filippo Fantini, Daniele\n Ferdani, Giulia Fiorini, Elena Formia, Anna Forte, Federica Giacomini,\n Valentina Alena Girelli, Bianca Gualandi, Ivan Heibi, Alessandro Iannucci,\n Rachele Manganelli Del F\\`a, Arcangelo Massari, Arianna Moretti, Silvio\n Peroni, Sofia Pescarin, Giulia Renda, Diego Ronchi, Mattia Sullini, Maria\n Alessandra Tini, Francesca Tomasi, Laura Travaglini, Luca Vittuari","title":"Saving temporary exhibitions in virtual environments: the Digital\n Renaissance of Ulisse Aldrovandi","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.GR cs.DL","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Our goal was to obtain the digital twin of the temporary exhibition \"The\nOther Renaissance: Ulisse Aldrovandi and the Wonders of the World\", to make it\naccessible online to users using various devices (from smartphones to VR\nheadsets). We started with a preliminary assessment of the exhibition,\nfocussing on possible acquisition constraints - time, space, and materials -\nand related solutions. Then, we proceeded with the creation of the digital twin\nby acquiring, processing, modelling, optimising, exporting, metadating, and\nuploading the exhibition. We adopted a hybrid use of two distinct acquisition\ntechniques, i.e. structured light projection scanning and photogrammetry, to\ncreate new digital cultural heritage objects and environments, and we used open\ntechnologies, formats and protocols to make available the final digital\nproduct. We described the process to collect and curate bibliographical\n(meta)data of the exhibition and digital twin creation process to foster its\nfindability, accessibility, interoperability and reusability.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:53:35 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Balzani","Roberto",""],["Barzaghi","Sebastian",""],["Bitelli","Gabriele",""],["Bonifazi","Federica",""],["Bordignon","Alice",""],["Cipriani","Luca",""],["Colitti","Simona",""],["Collina","Federica",""],["Daquino","Marilena",""],["Fabbri","Francesca",""],["Fanini","Bruno",""],["Fantini","Filippo",""],["Ferdani","Daniele",""],["Fiorini","Giulia",""],["Formia","Elena",""],["Forte","Anna",""],["Giacomini","Federica",""],["Girelli","Valentina Alena",""],["Gualandi","Bianca",""],["Heibi","Ivan",""],["Iannucci","Alessandro",""],["Del F\u00e0","Rachele Manganelli",""],["Massari","Arcangelo",""],["Moretti","Arianna",""],["Peroni","Silvio",""],["Pescarin","Sofia",""],["Renda","Giulia",""],["Ronchi","Diego",""],["Sullini","Mattia",""],["Tini","Maria Alessandra",""],["Tomasi","Francesca",""],["Travaglini","Laura",""],["Vittuari","Luca",""]]}
+{"id":"2308.15921","submitter":"Loris Del Grosso","authors":"L. Del Grosso, P. Pani","title":"Fermion Soliton Stars with Asymmetric Vacua","comments":"9 pages, 7 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"gr-qc astro-ph.CO hep-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Fermion soliton stars are a motivated model of exotic compact objects in\nwhich a nonlinear self-interacting real scalar field couples to a fermion via a\nYukawa term, giving rise to an effective fermion mass that depends on the fluid\nproperties. Here we continue our investigation of this model within General\nRelativity by considering a scalar potential with generic asymmetric vacua.\nThis case provides fermion soliton stars with a parametrically different\nscaling of the maximum mass relative to the model parameters, showing that the\nspecial case of symmetric vacua, in which we recover our previous results,\nrequires fine tuning. In the more generic case studied here the mass and radius\nof a fermion soliton star are comparable to those of a neutron star for natural\nmodel parameters at the GeV scale. Finally, the asymmetric scalar potential\ninside the star can provide either a positive or a negative effective\ncosmological constant in the interior, being thus reminiscent of gravastars or\nanti-de Sitter bubbles, respectively. In the latter case we find the existence\nof multiple, disconnected, branches of solutions.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:56:27 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Del Grosso","L.",""],["Pani","P.",""]]}
+{"id":"2308.15922","submitter":"Jingzhong Yang","authors":"Jingzhong Yang, Zenghui Jiang, Frederik Benthin, Joscha Hanel, Tom\n Fandrich, Raphael Joos, Stephanie Bauer, Sascha Kolatschek, Ali Hreibi, Eddy\n Patrick Rugeramigabo, Michael Jetter, Simone Luca Portalupi, Michael Zopf,\n Peter Michler, Stefan K\\\"uck, and Fei Ding","title":"High-rate intercity quantum key distribution with a semiconductor\n single-photon source","comments":"8 pages, 4 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph cond-mat.mes-hall cond-mat.mtrl-sci physics.optics","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Quantum key distribution (QKD) enables the transmission of information that\nis secure against general attacks by eavesdroppers. The use of on-demand\nquantum light sources in QKD protocols is expected to help improve security and\nmaximum tolerable loss. Semiconductor quantum dots (QDs) are a promising\nbuilding block for quantum communication applications because of the\ndeterministic emission of single photons with high brightness and low\nmultiphoton contribution. Here we report on the first intercity QKD experiment\nusing a bright deterministic single photon source. A BB84 protocol based on\npolarisation encoding is realised using the high-rate single photons in the\ntelecommunication C-band emitted from a semiconductor QD embedded in a circular\nBragg grating structure. Utilising the 79 km long link with 25.49 dB loss\n(equivalent to 130 km for the direct-connected optical fibre) between the\nGerman cities of Hannover and Braunschweig, a record-high secret key bits per\npulse of 4.8e-5 with an average quantum bit error ratio of 0.65 % are\ndemonstrated. An asymptotic maximum tolerable loss of 28.11 dB is found,\ncorresponding to a length of 144 km of standard telecommunication fibre.\nDeterministic semiconductor sources therefore compete with state-of-the-art\ndecoy state QKD with weak coherent pulses with respect to high secret key rate\nand have the potential to excel in measurement device independent protocols and\nquantum repeater applications.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:57:07 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Yang","Jingzhong",""],["Jiang","Zenghui",""],["Benthin","Frederik",""],["Hanel","Joscha",""],["Fandrich","Tom",""],["Joos","Raphael",""],["Bauer","Stephanie",""],["Kolatschek","Sascha",""],["Hreibi","Ali",""],["Rugeramigabo","Eddy Patrick",""],["Jetter","Michael",""],["Portalupi","Simone Luca",""],["Zopf","Michael",""],["Michler","Peter",""],["K\u00fcck","Stefan",""],["Ding","Fei",""]]}
+{"id":"2308.15923","submitter":"Armin Stocker","authors":"Armin Stocker and Hermann de Meer","title":"A Tutorial on Resilience in Smart Grids","comments":null,"journal-ref":"2022 12th International Workshop on Resilient Networks Design and\n Modeling (RNDM), Compi\\`egne, France, 2022, pp. 1-14","doi":"10.1109/RNDM55901.2022.9927711","report-no":null,"categories":"cs.NI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" A key quality of any kind of system is its ability to deliver its respective\nservice correctly. Often the unavailability of commercial systems may lead to\nlost revenue, which are minor compared to what may be at stake when critical\ninfrastructures fail. A failure to deliver critical services, such as clean\nwater or electricity may have dire consequences that endanger human lives and\nmay even halt or break other infrastructures. The services provided by critical\ninfrastructures need to be supplied continuously even when faced with\nre-configurations, outside disturbances and systemic changes. A system is\ncalled resilient if it fulfils this property. From the many critical\ninfrastructures that exist, power systems may be the most important ones,\nbecause they are supplying the required electricity for other critical\ninfrastructures. At the same time, a power system itself may be exposed to\nseveral disturbances from internal sources, e.g., fluctuations in the energy\ndemand, and external sources, e.g., heavy storms. Especially, fast dynamic\neffects caused by these disturbances may lead to deviations of grid frequency,\nshort-circuits, or, in severe cases, a total power system failure. As future\nscenarios will include more distributed renewable sources and less centralized\ngeneration from fossil fuels, ICT-based communication and coordination will\nplay an increasing role. This paper examines the notion of resilience, how it\nhas been traditionally ensured for the power system, and novel approaches to\nmaintain the frequency, protect people and devices against short circuits and\nrecover from a blackout. A special focus is on communication and the role that\ndistributed renewable generation plays for these processes.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:57:42 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Stocker","Armin",""],["de Meer","Hermann",""]]}
+{"id":"2308.15924","submitter":"Jongsu Kim","authors":"Jongsu Kim","title":"Vacuum static spaces with harmonic curvature","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.DG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this article we make a thorough classification of (not necessarily\ncomplete) $n$-dimensional vacuum static spaces $(M,g,f)$ with harmonic\ncurvature and, as a corollary, obtain a classification of complete vacuum\nstatic spaces with harmonic curvature. Indeed, we showed that $(M,g,f)$ is\nlocally isometric to one of the following four types; (i) the Riemannian\nproduct of an Einstein manifold and a vacuum static space, (ii) the warped\nproduct over an interval with an Einstein manifold as fiber, (iii) an Einstein\nmanifold, (iv) the Riemannian product of two Einstein manifolds.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 09:58:39 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kim","Jongsu",""]]}
+{"id":"2308.15925","submitter":"Matteo Rinaldi","authors":"Filippo Fornetti, Emanuele Pace, Matteo Rinaldi, Giovanni Salm\\`e,\n Sergio Scopetta and Michele Viviani","title":"The EMC effect for few-nucleon bound systems in Light-Front Hamiltonian\n Dynamics","comments":"13 pages, 7 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"nucl-th hep-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The light-front formalism for a covariant description of the European Muon\nCollaboration (EMC) effect, already applied to $^3$He, is formally extended to\nany nucleus, and used for actually calculating the $^3$H and $^4$He cases. The\nrealistic and accurate nuclear description of few-nucleon bound systems,\nobtained with both phenomenological and chiral potentials, has been properly\ncombined with the Poincare' covariance and macroscopic locality, automatically\nsatisfying both number of particles and momentum sum rule. While retaining the\non-mass-shell nucleon structure functions, one is then able to predict a\nsizable EMC effect for $^4$He, as already observed for $^3$He. Moreover, the\nimpact on the EMC effect of both i) the short-range correlations, such as those\ngenerated by modern nuclear interactions, and ii) the ratio between the neutron\nand proton structure functions has been studied. The short-range correlations\ngenerated by retaining only the standard nuclear degrees of freedom act on the\ndepth of the minimum in the EMC ratio, while the uncertainties linked to the\nratio of neutron to proton structure functions are found to be very small.\nThese light-front results facilitates ascribing deviations from experimental\ndata due to genuine QCD effects, not included in a standard nuclear\ndescription, and initiating unbiased investigations.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:01:36 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Fornetti","Filippo",""],["Pace","Emanuele",""],["Rinaldi","Matteo",""],["Salm\u00e8","Giovanni",""],["Scopetta","Sergio",""],["Viviani","Michele",""]]}
+{"id":"2308.15926","submitter":"Jianghong Ma","authors":"Dezhao Yang, Jianghong Ma, Shanshan Feng, Haijun Zhang, Zhao Zhang","title":"IDVT: Interest-aware Denoising and View-guided Tuning for Social\n Recommendation","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In the information age, recommendation systems are vital for efficiently\nfiltering information and identifying user preferences. Online social platforms\nhave enriched these systems by providing valuable auxiliary information.\nSocially connected users are assumed to share similar preferences, enhancing\nrecommendation accuracy and addressing cold start issues. However, empirical\nfindings challenge the assumption, revealing that certain social connections\ncan actually harm system performance. Our statistical analysis indicates a\nsignificant amount of noise in the social network, where many socially\nconnected users do not share common interests. To address this issue, we\npropose an innovative \\underline{I}nterest-aware \\underline{D}enoising and\n\\underline{V}iew-guided \\underline{T}uning (IDVT) method for the social\nrecommendation. The first ID part effectively denoises social connections.\nSpecifically, the denoising process considers both social network structure and\nuser interaction interests in a global view. Moreover, in this global view, we\nalso integrate denoised social information (social domain) into the propagation\nof the user-item interactions (collaborative domain) and aggregate user\nrepresentations from two domains using a gating mechanism. To tackle potential\nuser interest loss and enhance model robustness within the global view, our\nsecond VT part introduces two additional views (local view and dropout-enhanced\nview) for fine-tuning user representations in the global view through\ncontrastive learning. Extensive evaluations on real-world datasets with varying\nnoise ratios demonstrate the superiority of IDVT over state-of-the-art social\nrecommendation methods.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:03:55 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Yang","Dezhao",""],["Ma","Jianghong",""],["Feng","Shanshan",""],["Zhang","Haijun",""],["Zhang","Zhao",""]]}
+{"id":"2308.15927","submitter":"Alessandro Sfondrini","authors":"Nicola Baglioni, Davide Polvara, Andrea Pone, Alessandro Sfondrini","title":"On the worldsheet S matrix of the AdS3/CFT2 mixed-flux mirror model","comments":"35 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-th","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" String on $AdS_3\\times S^3\\times T^4$ backgrounds are known to be classically\nintegrable in the presence of a mixture of Ramond-Ramond and\nNeveu-Schwarz-Neveu-Schwarz fluxes. It is expected that this results in the\nexistence of a well-defined factorised worldsheet S matrix. In order to use\nintegrability to compute the string spectrum we need such a factorised S matrix\nto exist also for the \"mirror\" model, obtained by a double Wick rotation of the\noriginal worldsheet theory. In the mixed-flux case the mirror model has a\ncomplex Hamiltonian, which raises questions on its well-definedness. In the\npaper we study the worldsheet tree-level S matrix of the original and mirror\nmodel and discuss some necessary conditions for the integrability and reality\nof the spectrum.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:04:57 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Baglioni","Nicola",""],["Polvara","Davide",""],["Pone","Andrea",""],["Sfondrini","Alessandro",""]]}
+{"id":"2308.15928","submitter":"Pawe{\\l} Gawrychowski","authors":"Bart{\\l}omiej Dudek and Pawe{\\l} Gawrychowski and Tatiana\n Starikovskaya","title":"Sorting Signed Permutations by Reversals in Nearly-Linear Time","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DS","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Given a signed permutation on $n$ elements, we need to sort it with the\nfewest reversals. This is a fundamental algorithmic problem motivated by\napplications in comparative genomics, as it allows to accurately model\nrearrangements in small genomes. The first polynomial-time algorithm was given\nin the foundational work of Hannenhalli and Pevzner [J. ACM'99]. Their approach\nwas later streamlined and simplified by Kaplan, Shamir, and Tarjan [SIAM J.\nComput.'99] and their framework has eventually led to an algorithm that works\nin $\\mathcal{O}(n^{3/2}\\sqrt{\\log n})$ time given by Tannier, Bergeron, and\nSagot [Discr. Appl. Math.'07]. However, the challenge of finding a\nnearly-linear time algorithm remained unresolved. In this paper, we show how to\nleverage the results on dynamic graph connectivity to obtain a surprisingly\nsimple $\\mathcal{O}(n \\log^2 n / \\log \\log n)$ time algorithm for this problem.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:09:26 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Dudek","Bart\u0142omiej",""],["Gawrychowski","Pawe\u0142",""],["Starikovskaya","Tatiana",""]]}
+{"id":"2308.15929","submitter":"Sonae Hadama","authors":"Sonae Hadama","title":"Asymptotic stability of a wide class of stationary solutions for the\n Hartree and Schr\\\"{o}dinger equations for infinitely many particles","comments":"25 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.AP math-ph math.MP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We consider the Hartree and Schr\\\"{o}dinger equations describing the time\nevolution of wave functions of infinitely many interacting fermions in\nthree-dimensional space. These equations can be formulated using density\noperators, and they have infinitely many stationary solutions. In this paper,\nwe prove the asymptotic stability of a wide class of stationary solutions. We\nemphasize that our result includes Fermi gas at zero temperature. This is one\nof the most important steady states from the physics point of view; however,\nits asymptotic stability has been left open after Lewin and Sabin first\nformulated this stability problem and gave significant results in their seminal\nwork [arXiv:1310.0604].\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:12:32 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Hadama","Sonae",""]]}
+{"id":"2308.15930","submitter":"Yu Shu","authors":"Yu Shu, Siwei Dong, Guangyao Chen, Wenhao Huang, Ruihua Zhang, Daochen\n Shi, Qiqi Xiang, Yemin Shi","title":"LLaSM: Large Language and Speech Model","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL cs.LG cs.SD eess.AS","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Multi-modal large language models have garnered significant interest\nrecently. Though, most of the works focus on vision-language multi-modal models\nproviding strong capabilities in following vision-and-language instructions.\nHowever, we claim that speech is also an important modality through which\nhumans interact with the world. Hence, it is crucial for a general-purpose\nassistant to be able to follow multi-modal speech-and-language instructions. In\nthis work, we propose Large Language and Speech Model (LLaSM). LLaSM is an\nend-to-end trained large multi-modal speech-language model with cross-modal\nconversational abilities, capable of following speech-and-language\ninstructions. Our early experiments show that LLaSM demonstrates a more\nconvenient and natural way for humans to interact with artificial intelligence.\nSpecifically, we also release a large Speech Instruction Following dataset\nLLaSM-Audio-Instructions. Code and demo are available at\nhttps://github.com/LinkSoul-AI/LLaSM and\nhttps://huggingface.co/spaces/LinkSoul/LLaSM. The LLaSM-Audio-Instructions\ndataset is available at\nhttps://huggingface.co/datasets/LinkSoul/LLaSM-Audio-Instructions.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:12:39 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Shu","Yu",""],["Dong","Siwei",""],["Chen","Guangyao",""],["Huang","Wenhao",""],["Zhang","Ruihua",""],["Shi","Daochen",""],["Xiang","Qiqi",""],["Shi","Yemin",""]]}
+{"id":"2308.15931","submitter":"Tong Yang","authors":"Tong Yang, Jiangpin Liu, Yue Wang, Rong Xiong","title":"Sparse Waypoint Validity Checking for Self-Entanglement-Free Tethered\n Path Planning","comments":"This is a generalised version of the authors' ICRA23 conference paper","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.RO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" A novel mechanism to derive self-entanglement-free (SEF) path for tethered\ndifferential-driven robots is proposed in this work. The problem is tailored to\nthe deployment of tethered differential-driven robots in situations where an\nomni-directional tether re-tractor is not available. This is frequently\nencountered when it is impractical to concurrently equip an omni-directional\ntether retracting mechanism with other geometrically intricate devices, such as\na manipulator, which is notably relevant in applications like disaster\nrecovery, spatial exploration, etc. Without specific attention to the spatial\nrelation between the shape of the tether and the pose of the mobile unit, the\nissue of self-entanglement arises when the robot moves, resulting in unsafe\nrobot movements and the risk of damaging the tether. In this paper, the SEF\nconstraint is first formulated as the boundedness of a relative angle function\nwhich characterises the angular difference between the tether stretching\ndirection and the robot's heading direction. Then, a constrained\nsearching-based path planning algorithm is proposed which produces a path that\nis sub-optimal whilst ensuring the avoidance of tether self-entanglement.\nFinally, the algorithmic efficiency of the proposed path planner is further\nenhanced by proving the conditioned sparsity of the primitive path validity\nchecking module. The effectiveness of the proposed algorithm is assessed\nthrough case studies, comparing its performance against untethered\ndifferential-driven planners in challenging planning scenarios. A comparative\nanalysis is further conducted between the normal node expansion module and the\nimproved node expansion module which incorporates sparse waypoint validity\nchecking. Real-world tests are also conducted to validate the algorithm's\nperformance. An open-source implementation has also made available for the\nbenefit of the robotics community.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:21:55 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Yang","Tong",""],["Liu","Jiangpin",""],["Wang","Yue",""],["Xiong","Rong",""]]}
+{"id":"2308.15932","submitter":"Mohammad Hamghalam","authors":"Mohammad Hamghalam, Richard K. G. Do, and Amber L. Simpson","title":"Attention-based CT Scan Interpolation for Lesion Segmentation of\n Colorectal Liver Metastases","comments":null,"journal-ref":"Proc. SPIE 12468, Medical Imaging 2023: Biomedical Applications in\n Molecular, Structural, and Functional Imaging, 124680U (10 April 2023)","doi":"10.1117/12.2656072","report-no":null,"categories":"eess.IV cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Small liver lesions common to colorectal liver metastases (CRLMs) are\nchallenging for convolutional neural network (CNN) segmentation models,\nespecially when we have a wide range of slice thicknesses in the computed\ntomography (CT) scans. Slice thickness of CT images may vary by clinical\nindication. For example, thinner slices are used for presurgical planning when\nfine anatomic details of small vessels are required. While keeping the\neffective radiation dose in patients as low as possible, various slice\nthicknesses are employed in CRLMs due to their limitations. However,\ndifferences in slice thickness across CTs lead to significant performance\ndegradation in CT segmentation models based on CNNs. This paper proposes a\nnovel unsupervised attention-based interpolation model to generate intermediate\nslices from consecutive triplet slices in CT scans. We integrate segmentation\nloss during the interpolation model's training to leverage segmentation labels\nin existing slices to generate middle ones. Unlike common interpolation\ntechniques in CT volumes, our model highlights the regions of interest (liver\nand lesions) inside the abdominal CT scans in the interpolated slice. Moreover,\nour model's outputs are consistent with the original input slices while\nincreasing the segmentation performance in two cutting-edge 3D segmentation\npipelines. We tested the proposed model on the CRLM dataset to upsample\nsubjects with thick slices and create isotropic volume for our segmentation\nmodel. The produced isotropic dataset increases the Dice score in the\nsegmentation of lesions and outperforms other interpolation approaches in terms\nof interpolation metrics.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:21:57 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Hamghalam","Mohammad",""],["Do","Richard K. G.",""],["Simpson","Amber L.",""]]}
+{"id":"2308.15933","submitter":"Jose Manuel Ruiz Franco","authors":"Maximilian M. Schmidt, Jos\\'e Ruiz-Franco, Steffen Bochenek, Fabrizio\n Camerin, Emanuela Zaccarelli, and Andrea Scotti","title":"Interfacial fluid rheology of soft particles","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.soft","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In situ interfacial rheology and numerical simulations are used to\ninvestigate microgel monolayers in a wide range of packing fractions,\n$\\zeta_{2D}$. The heterogeneous particle compressibility determines two flow\nregimes characterized by distinct master curves. To mimic the microgel\narchitecture and reproduce experiments, a potential combining a soft shoulder\nwith the Hertzian model is introduced. In contrast to bulk conditions, the\nmeasured elastic moduli vary non-monotonically with $\\zeta_{2D}$ at the\ninterface, confirming long-sought predictions of reentrant behavior for\nHertzian-like systems.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:22:04 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Schmidt","Maximilian M.",""],["Ruiz-Franco","Jos\u00e9",""],["Bochenek","Steffen",""],["Camerin","Fabrizio",""],["Zaccarelli","Emanuela",""],["Scotti","Andrea",""]]}
+{"id":"2308.15934","submitter":"Fabio Bagarello Dr.","authors":"Fabio Bagarello","title":"Uncertainty relation for non-Hermitian operators","comments":"In press in J. Phys. A","journal-ref":null,"doi":null,"report-no":null,"categories":"math-ph math.MP quant-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper we discuss some aspects of the Heisenberg uncertainty relation,\nmostly from the point of view of non self-adjoint operators. Some equivalence\nresults, and some refinements of the inequality, are deduced, and some relevant\nexamples are discussed.\n We also begin a sort of {\\em dynamical analysis} of the relation, in\nconnection with what has been recently called $\\gamma$-{dynamics} and\n$\\gamma$-symmetries, and we discuss in some details the role of different\nscalar products in our analysis.\n The case of self-adjoint operators is recovered as a special case of our\ngeneral settings.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:24:41 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Bagarello","Fabio",""]]}
+{"id":"2308.15935","submitter":"Eerke Boiten","authors":"Isabel Wagner (University of Basel) and Eerke Boiten (De Montfort\n University)","title":"What's going on at the back-end? Risks and benefits of smart toilets","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CY cs.CR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This paper presents a thematic analysis of an expert focus group considering\nsmart toilets that record health data. The themes that arise indicate risks,\nmany of which could be mitigated but currently are not, suggesting health\nbenefits for the moment override other concerns only in specific application\ncontexts.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:29:29 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Wagner","Isabel","","University of Basel"],["Boiten","Eerke","","De Montfort\n University"]]}
+{"id":"2308.15936","submitter":"Chamalee Wickrama Arachchi Miss","authors":"Chamalee Wickrama Arachchi and Nikolaj Tatti","title":"Jaccard-constrained dense subgraph discovery","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DS cs.LG cs.SI","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Finding dense subgraphs is a core problem in graph mining with many\napplications in diverse domains. At the same time many real-world networks vary\nover time, that is, the dataset can be represented as a sequence of graph\nsnapshots. Hence, it is natural to consider the question of finding dense\nsubgraphs in a temporal network that are allowed to vary over time to a certain\ndegree. In this paper, we search for dense subgraphs that have large pairwise\nJaccard similarity coefficients. More formally, given a set of graph snapshots\nand a weight $\\lambda$, we find a collection of dense subgraphs such that the\nsum of densities of the induced subgraphs plus the sum of Jaccard indices,\nweighted by $\\lambda$, is maximized. We prove that this problem is NP-hard. To\ndiscover dense subgraphs with good objective value, we present an iterative\nalgorithm which runs in $\\mathcal{O}(n^2k^2 + m \\log n + k^3 n)$ time per\nsingle iteration, and a greedy algorithm which runs in $\\mathcal{O}(n^2k^2 + m\n\\log n + k^3 n)$ time, where $k$ is the length of the graph sequence and $n$\nand $m$ denote number of nodes and total number of edges respectively. We show\nexperimentally that our algorithms are efficient, they can find ground truth in\nsynthetic datasets and provide interpretable results from real-world datasets.\nFinally, we present a case study that shows the usefulness of our problem.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:33:02 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Arachchi","Chamalee Wickrama",""],["Tatti","Nikolaj",""]]}
+{"id":"2308.15937","submitter":"Luis Brey","authors":"Luis Brey and H.A.Fertig","title":"Quantum Plasmons in Double Layer Systems","comments":"14 pages, including SI","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mes-hall cond-mat.mtrl-sci","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Plasmons are fundamental excitations of metals which can be described in\nterms of electron dynamics, or in terms of the electromagnetic fields\nassociated with them. In this work we develop a quantum description of plasmons\nin a double layer structure, treating them as confined electromagnetic modes of\nthe structure. The structure of the resulting bosonic Hamiltonian indicates the\npresence of virtual plasmons of the individual layers which appear as quantum\nfluctuations in the ground state. For momenta smaller than the inverse\nseparation between layers, these modes are in the ultrastrong coupling regime.\nCoherence terms in the Hamiltonian indicate that modes with equal and opposite\nmomenta are entangled. We consider how in principle these entangled modes might\nbe accessed, by analyzing a situation in which the conductivity of one of the\ntwo layers suddenly drops to zero. The resulting density matrix has a large\nentanglement entropy at small momenta, and modes at $\\pm \\mathbf{q}$ that are\ninseparable. More practical routes to releasing and detecting entangled\nplasmons from this system are considered.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:33:11 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Brey","Luis",""],["Fertig","H. A.",""]]}
+{"id":"2308.15938","submitter":"Yeshayahu Weiss","authors":"Michael Bar-Sinai, Achiya Elyasaf, Gera Weiss and Yeshayahu Weiss","title":"Provengo: A Tool Suite for Scenario Driven Model-Based Testing","comments":"4 pages, 3 figures, 2 listing","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We present Provengo, a comprehensive suite of tools designed to facilitate\nthe implementation of Scenario-Driven Model-Based Testing (SDMBT), an\ninnovative approach that utilizes scenarios to construct a model encompassing\nthe user's perspective and the system's business value while also defining the\ndesired outcomes. With the assistance of Provengo, testers gain the ability to\neffortlessly create natural user stories and seamlessly integrate them into a\nmodel capable of generating effective tests. The demonstration illustrates how\nSDMBT effectively addresses the bootstrapping challenge commonly encountered in\nmodel-based testing (MBT) by enabling incremental development, starting from\nsimple models and gradually augmenting them with additional stories.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:34:12 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Bar-Sinai","Michael",""],["Elyasaf","Achiya",""],["Weiss","Gera",""],["Weiss","Yeshayahu",""]]}
+{"id":"2308.15939","submitter":"Hanqiu Deng","authors":"Hanqiu Deng, Zhaoxiang Zhang, Jinan Bao, Xingyu Li","title":"AnoVL: Adapting Vision-Language Models for Unified Zero-shot Anomaly\n Localization","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Contrastive Language-Image Pre-training (CLIP) models have shown promising\nperformance on zero-shot visual recognition tasks by learning visual\nrepresentations under natural language supervision. Recent studies attempt the\nuse of CLIP to tackle zero-shot anomaly detection by matching images with\nnormal and abnormal state prompts. However, since CLIP focuses on building\ncorrespondence between paired text prompts and global image-level\nrepresentations, the lack of patch-level vision to text alignment limits its\ncapability on precise visual anomaly localization. In this work, we introduce a\ntraining-free adaptation (TFA) framework of CLIP for zero-shot anomaly\nlocalization. In the visual encoder, we innovate a training-free value-wise\nattention mechanism to extract intrinsic local tokens of CLIP for patch-level\nlocal description. From the perspective of text supervision, we particularly\ndesign a unified domain-aware contrastive state prompting template. On top of\nthe proposed TFA, we further introduce a test-time adaptation (TTA) mechanism\nto refine anomaly localization results, where a layer of trainable parameters\nin the adapter is optimized using TFA's pseudo-labels and synthetic\nnoise-corrupted tokens. With both TFA and TTA adaptation, we significantly\nexploit the potential of CLIP for zero-shot anomaly localization and\ndemonstrate the effectiveness of our proposed methods on various datasets.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:35:36 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Deng","Hanqiu",""],["Zhang","Zhaoxiang",""],["Bao","Jinan",""],["Li","Xingyu",""]]}
+{"id":"2308.15940","submitter":"Lukas Freter","authors":"L. Freter, M. S. Mirmoosa, A. Sihvola, C. R. Simovski, S. A. Tretyakov","title":"Electromagnetic Effects in Anti-Hermitian Media with Gain and Loss","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.app-ph physics.optics","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Incorporating both gain and loss into electromagnetic systems provides\npossibilities to engineer effects in unprecedented ways. Concerning\nelectromagnetic effects in isotropic media that have concurrently electric and\nmagnetic responses, there is in fact a degree of freedom to distribute the gain\nand loss in different effective material parameters. In this paper, we\nanalytically scrutinize wave interactions with those media, and, most\nimportantly, we contemplate the extreme scenario where such media are\nanti-Hermitian. Considering various conditions for excitation, polarization,\nand geometry, we uncover important effects and functionalities such as lasing\ninto both surface waves and propagating waves, conversion of evanescent source\nfields to transmitted propagating waves, full absorption, and enhancing\nbackward to forward scattering ratio. We hope that these findings explicitly\nshow the potential of anti-Hermiticity to be used in optical physics as well as\nmicrowave engineering for creating and using unconventional wave phenomena.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:37:15 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Freter","L.",""],["Mirmoosa","M. S.",""],["Sihvola","A.",""],["Simovski","C. R.",""],["Tretyakov","S. A.",""]]}
+{"id":"2308.15941","submitter":"Nicolas Bergmann","authors":"Nicolas Bergmann (1), Nicolas G H\\\"ormann (1) and Karsten Reuter (1)\n ((1) Fritz-Haber-Institut der Max-Planck-Gesellschaft, Berlin, Germany )","title":"Ab-Initio-Based Modeling of Thermodynamic Cyclic Voltammograms: A\n Benchmark Study on Ag(100) in Bromide Solutions","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.chem-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Experimental cyclic voltammograms (CVs) measured in the slow scan rate limit\ncan be entirely described in terms of thermodynamic equilibrium quantities of\nthe electrified solid-liquid interface. They correspondingly serve as an\nimportant benchmark for the quality of first-principles calculations of the\ninterfacial thermodynamics. Here, we investigate the partially drastic\napproximations made presently in computationally efficient such calculations\nfor the well-defined showcase of a Ag(100) model electrode in Br-containing\nelectrolytes, where the non-trivial part of the CV stems from the\nelectrosorption of Br ions. We specifically study the entanglement of common\napproximations in the treatment of solvation and field effects, as well as in\nthe way macroscopic averages of the two key quantities, namely the\npotential-dependent adsorbate coverage and electrosorption valency, are derived\nfrom the first-principles energetics. We demonstrate that the combination of\nenergetics obtained within an implicit solvation model and a perturbative\nsecond order account of capacitive double layer effects with a\nconstant-potential grand-canonical Monte Carlo sampling of the adsorbate layer\nprovides an accurate description of the experimental CV. However, our analysis\nalso shows that error cancellation at lower levels of theory may equally lead\nto good descriptions even though key underlying physics like the disorder-order\ntransition of the Br adlayer at increasing coverages is inadequately treated.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:45:12 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Bergmann","Nicolas","","Fritz-Haber-Institut der Max-Planck-Gesellschaft, Berlin, Germany"],["H\u00f6rmann","Nicolas G","","Fritz-Haber-Institut der Max-Planck-Gesellschaft, Berlin, Germany"],["Reuter","Karsten","","Fritz-Haber-Institut der Max-Planck-Gesellschaft, Berlin, Germany"]]}
+{"id":"2308.15942","submitter":"Qiegen Liu","authors":"Kai Xu, Shiyu Lu, Bin Huang, Weiwen Wu, Qiegen Liu","title":"Stage-by-stage Wavelet Optimization Refinement Diffusion Model for\n Sparse-View CT Reconstruction","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"eess.IV cs.CV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Diffusion models have emerged as potential tools to tackle the challenge of\nsparse-view CT reconstruction, displaying superior performance compared to\nconventional methods. Nevertheless, these prevailing diffusion models\npredominantly focus on the sinogram or image domains, which can lead to\ninstability during model training, potentially culminating in convergence\ntowards local minimal solutions. The wavelet trans-form serves to disentangle\nimage contents and features into distinct frequency-component bands at varying\nscales, adeptly capturing diverse directional structures. Employing the Wavelet\ntransform as a guiding sparsity prior significantly enhances the robustness of\ndiffusion models. In this study, we present an innovative approach named the\nStage-by-stage Wavelet Optimization Refinement Diffusion (SWORD) model for\nsparse-view CT reconstruction. Specifically, we establish a unified\nmathematical model integrating low-frequency and high-frequency generative\nmodels, achieving the solution with optimization procedure. Furthermore, we\nperform the low-frequency and high-frequency generative models on wavelet's\ndecomposed components rather than sinogram or image domains, ensuring the\nstability of model training. Our method rooted in established optimization\ntheory, comprising three distinct stages, including low-frequency generation,\nhigh-frequency refinement and domain transform. Our experimental results\ndemonstrate that the proposed method outperforms existing state-of-the-art\nmethods both quantitatively and qualitatively.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:48:53 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Xu","Kai",""],["Lu","Shiyu",""],["Huang","Bin",""],["Wu","Weiwen",""],["Liu","Qiegen",""]]}
+{"id":"2308.15943","submitter":"Kun Lin Liu","authors":"Kun-Lin Liu, Yu-Heng Chen, Chiao-Yin Wang, Po-Hsiang Tsui, Meng-Lin Li","title":"Improved Ultrasound Attenuation Coefficient Estimation Using Spectral\n Normalization on Local Interference-Free Single-Scatterer Power Spectrum","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Ultrasound attenuation coefficient estimation (ACE) can be utilized to\nquantify liver fat content, offering significant diagnostic potential in\naddressing the growing global public health issue of non-alcoholic fatty liver\nand other chronic liver diseases. Among ACE methods, the reference frequency\nmethod (RFM) proposed recently possesses the advantages of being\nsystem-independent and not requiring reference phantom. However, the presence\nof large oscillations in frequency power ratio decay curves leads to unstable\nACE results with RFM, originating from noise as well as constructive and\ndestructive interference in the backscattered signal's power spectrum. To\naddress this issue, we propose an improved RFM version where a single-scatterer\npower spectrum estimator is incorporated to restore interference free\nsingle-scatterer power spectrum, thereby reducing oscillations in the frequency\npower ratio decay curves and greatly improving the accuracy of ACE.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:49:41 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Liu","Kun-Lin",""],["Chen","Yu-Heng",""],["Wang","Chiao-Yin",""],["Tsui","Po-Hsiang",""],["Li","Meng-Lin",""]]}
+{"id":"2308.15944","submitter":"Ji-Hoon Jeong","authors":"Euijong Lee, Jaemin Jung, Gee-Myung Moon, Seong-Whan Lee, and Ji-Hoon\n Jeong","title":"WUDI: A Human Involved Self-Adaptive Framework to Prevent Childhood\n Obesity in Internet of Things Environment","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SE","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The Internet of Things (IoT) connects people, devices, and information\nresources, in various domains to improve efficiency. The healthcare domain has\nbeen transformed by the integration of the IoT, leading to the development of\ndigital healthcare solutions such as health monitoring, emergency detection,\nand remote operation. This integration has led to an increase in the health\ndata collected from a variety of IoT sources. Consequently, advanced\ntechnologies are required to analyze health data, and artificial intelligence\nhas been employed to extract meaningful insights from the data. Childhood\noverweight and obesity have emerged as some of the most serious global public\nhealth challenges, as they can lead to a variety of health-related problems and\nthe early development of chronic diseases. To address this, a self-adaptive\nframework is proposed to prevent childhood obesity by using lifelog data from\nIoT environments, with human involvement being an important consideration in\nthe framework. The framework uses an ensemble-based learning model to predict\nobesity using the lifelog data. Empirical experiments using lifelog data from\nsmartphone applications were conducted to validate the effectiveness of human\ninvolvement and obesity prediction. The results demonstrated the efficiency of\nthe proposed framework with human involvement in obesity prediction. The\nproposed framework can be applied in real-world healthcare services for\nchildhood obesity.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:52:00 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Lee","Euijong",""],["Jung","Jaemin",""],["Moon","Gee-Myung",""],["Lee","Seong-Whan",""],["Jeong","Ji-Hoon",""]]}
+{"id":"2308.15945","submitter":"Christophe Veaux","authors":"Christophe Veaux, Ranniery Maia, Spyridoula Papendreou","title":"The DeepZen Speech Synthesis System for Blizzard Challenge 2023","comments":"Blizzard Challenge 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.AS cs.SD","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" This paper describes the DeepZen text to speech (TTS) system for Blizzard\nChallenge 2023. The goal of this challenge is to synthesise natural and\nhigh-quality speech in French, from a large monospeaker dataset (hub task) and\nfrom a smaller dataset by speaker adaptation (spoke task). We participated to\nboth tasks with the same model architecture. Our approach has been to use an\nauto-regressive model, which retains an advantage for generating natural\nsounding speech but to improve prosodic control in several ways. Similarly to\nnon-attentive Tacotron, the model uses a duration predictor and gaussian\nupsampling at inference, but with a simpler unsupervised training. We also\nmodel the speaking style at both sentence and word levels by extracting global\nand local style tokens from the reference speech. At inference, the global and\nlocal style tokens are predicted from a BERT model run on text. This BERT model\nis also used to predict specific pronunciation features like schwa elision and\noptional liaisons. Finally, a modified version of HifiGAN trained on a large\npublic dataset and fine-tuned on the target voices is used to generate speech\nwaveform. Our team is identified as O in the the Blizzard evaluation and MUSHRA\ntest results show that our system performs second ex aequo in both hub task\n(median score of 0.75) and spoke task (median score of 0.68), over 18 and 14\nparticipants, respectively.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:52:16 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Veaux","Christophe",""],["Maia","Ranniery",""],["Papendreou","Spyridoula",""]]}
+{"id":"2308.15946","submitter":"Huu-Thinh Do","authors":"Huu-Thinh Do and Ionela Prodan","title":"Experimental validation of an explicit flatness-based MPC design for\n quadcopter position tracking","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SY cs.SY","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Due to the nonlinearities and operational constraints typical to quadcopter\nmissions, Model Predictive Control (MPC) encounters the major challenge of high\ncomputational power necessary for the online implementation. This problem may\nprove impractical, especially for a hardware-limited or small-scale setup. By\nremoving the need for online solvers while keeping the constraint satisfaction\nand optimality, Explicit MPC (ExMPC) stands out as a strong candidate for this\napplication. Yet, the formulation was usually hindered by the two main\nproblems: nonlinearity and dimensionality. In this paper, we propose an ExMPC\nsolution for the quadcopter position stabilization by analyzing its description\n(dynamics and constraints) in the flat output space. With the former issue, the\nsystem is exactly linearized into a concatenation of three double integrators\nat a price of cumbersome constraints in the new coordinates. For the latter,\nwith a suitable characterization of these constraints, the stabilizing ExMPC\ncan be computed for each double integrator separately. The controller is then\nvalidated via simulations and experimental tests. The proposed scheme achieves\nsimilar performance and guarantees to the state-of-the-art solution but with\nnotably less computational effort, allowing scalability in a centralized manner\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:53:27 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Do","Huu-Thinh",""],["Prodan","Ionela",""]]}
+{"id":"2308.15947","submitter":"George Fikioris","authors":"Christos Mystilidis, George Fikioris, Christos Tserkezis, Guy A. E.\n Vandenbosch, and Xuezhi Zheng","title":"The Uniqueness Theorem for Nonlocal Hydrodynamic Media","comments":"This work has been submitted to the IEEE for possible publication.\n Copyright may be transferred without notice, after which this version may no\n longer be accessible","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.app-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We investigate a fundamental electromagnetic theorem, namely the uniqueness\ntheorem, in the context of nonlocal electromagnetics, as simulated by a popular\nsemiclassical model, the Hydrodynamic Drude Model (HDM) and extensions thereof\nsuch as the Generalized Nonlocal Optical Response (GNOR). The derivations and\nproofs presented here give a theoretical foundation to the use of the\nAdditional Boundary Conditions (ABCs), whose necessity is recognized and\nunderlined in virtually all implementations and applications of HDM. Our proofs\nfollow a mathematically relaxed style, borrowing from the literature of\nestablished electromagnetics textbooks that study the matter from an\nengineering perspective. Through this simpler route we deduce clear and\nintuitive material-response requirements for uniqueness to hold, while using a\nfamiliar parlance in a topic that is mostly studied through a physics\nperspective. Two numerical examples that examine the problem from either a\nsemianalytical or a purely numerical viewpoint support our findings.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:55:36 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Mystilidis","Christos",""],["Fikioris","George",""],["Tserkezis","Christos",""],["Vandenbosch","Guy A. E.",""],["Zheng","Xuezhi",""]]}
+{"id":"2308.15948","submitter":"Jason R.C. Nurse Dr","authors":"Maria Bada and Jason R. C. Nurse","title":"Exploring Cybercriminal Activities, Behaviors and Profiles","comments":null,"journal-ref":"Applied Cognitive Science and Technology, 2023","doi":"10.1007/978-981-99-3966-4_7","report-no":null,"categories":"cs.CR cs.CY cs.HC","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" While modern society benefits from a range of technological advancements, it\nalso is exposed to an ever-increasing set of cybersecurity threats. These\naffect all areas of life including business, government, and individuals. To\ncomplement technology solutions to this problem, it is crucial to understand\nmore about cybercriminal perpetrators themselves, their use of technology,\npsychological aspects, and profiles. This is a topic that has received little\nsocio-technical research emphasis in the technology community, has few concrete\nresearch findings, and is thus a prime area for development. The aim of this\narticle is to explore cybercriminal activities and behavior from a psychology\nand human aspects perspective, through a series of notable case studies. We\nexamine motivations, psychological and other interdisciplinary concepts as they\nmay impact/influence cybercriminal activities. We expect this paper to be of\nvalue and particularly insightful for those studying technology, psychology,\nand criminology, with a focus on cybersecurity and cybercrime.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:57:19 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Bada","Maria",""],["Nurse","Jason R. C.",""]]}
+{"id":"2308.15949","submitter":"Yizeng Han","authors":"Yizeng Han, Zeyu Liu, Zhihang Yuan, Yifan Pu, Chaofei Wang, Shiji\n Song, Gao Huang","title":"Latency-aware Unified Dynamic Networks for Efficient Image Recognition","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Dynamic computation has emerged as a promising avenue to enhance the\ninference efficiency of deep networks. It allows selective activation of\ncomputational units, leading to a reduction in unnecessary computations for\neach input sample. However, the actual efficiency of these dynamic models can\ndeviate from theoretical predictions. This mismatch arises from: 1) the lack of\na unified approach due to fragmented research; 2) the focus on algorithm design\nover critical scheduling strategies, especially in CUDA-enabled GPU contexts;\nand 3) challenges in measuring practical latency, given that most libraries\ncater to static operations. Addressing these issues, we unveil the\nLatency-Aware Unified Dynamic Networks (LAUDNet), a framework that integrates\nthree primary dynamic paradigms-spatially adaptive computation, dynamic layer\nskipping, and dynamic channel skipping. To bridge the theoretical and practical\nefficiency gap, LAUDNet merges algorithmic design with scheduling optimization,\nguided by a latency predictor that accurately gauges dynamic operator latency.\nWe've tested LAUDNet across multiple vision tasks, demonstrating its capacity\nto notably reduce the latency of models like ResNet-101 by over 50% on\nplatforms such as V100, RTX3090, and TX2 GPUs. Notably, LAUDNet stands out in\nbalancing accuracy and efficiency. Code is available at:\nhttps://www.github.com/LeapLabTHU/LAUDNet.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 10:57:41 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Han","Yizeng",""],["Liu","Zeyu",""],["Yuan","Zhihang",""],["Pu","Yifan",""],["Wang","Chaofei",""],["Song","Shiji",""],["Huang","Gao",""]]}
+{"id":"2308.15950","submitter":"Soroush Sadeghnejad Prof.","authors":"Amir Mohammad Zarif Shahsavan Nejad, Amir Mahdi Zarif Shahsavan Nejad,\n Amirali Setayeshi, Soroush Sadeghnejad","title":"High Performance Networking Layer for Simulation Applications","comments":"13 pages, 7 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.RO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Autonomous vehicles are one of the most popular and also fast-growing\ntechnologies in the world. As we go further, there are still a lot of\nchallenges that are unsolved and may cause problems in the future when it comes\nto testing in real world. Simulations on the other hand have always had a huge\nimpact in the fields of science, technology, physics, etc. The simulation also\npowers real-world Autonomous Vehicles nowadays. Therefore, We have built an\nAutonomous Vehicle Simulation Software - called AVIS Engine - that provides\ntools and features that help develop autonomous vehicles in various\nenvironments. AVIS Engine features an advanced input and output system for the\nvehicle and includes a traffic system and vehicle sensor system which can be\ncommunicated using the fast networking system and ROS Bridge.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:00:24 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Nejad","Amir Mohammad Zarif Shahsavan",""],["Nejad","Amir Mahdi Zarif Shahsavan",""],["Setayeshi","Amirali",""],["Sadeghnejad","Soroush",""]]}
+{"id":"2308.15951","submitter":"Marcelino Agundez","authors":"M. Agundez, N. Marcelino, B. Tercero, J. Cernicharo","title":"How widespread are aromatic cycles in cold clouds?","comments":"Accepted for publication in A&A Letters","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We report the detection of large hydrocarbon cycles toward several cold dense\nclouds. We observed four sources (L1495B, Lupus-1A, L483, and L1527) in the Q\nband (31-50 GHz) using the Yebes 40m radiotelescope. Using the line stack\ntechnique, we find statistically significant evidence of benzonitrile (C6H5CN)\nin L1495B, Lupus-1A, and L483 at the 31.8 sigma, 15.0 sigma, and 17.2 sigma\nlevels, respectively, while there is no hint of C6H5CN in the fourth source,\nL1527. The column densities derived are in the range (1.8-4.0)e12 cm-2, which\nis somewhat below the value derived toward the cold dense cloud TMC-1. When we\nanalyse together all the benzonitrile abundances derived toward cold clouds in\nthis study and in the literature, a clear trend emerges in which the higher the\nabundance of HC7N, the more abundant C6H5CN is. This indicates that aromatic\ncycles are specially favored in those interstellar clouds where long carbon\nchains are abundant, which suggests that the chemical processes that are\nresponsible for the formation of linear carbon chains are also behind the\nsynthesis of aromatic rings. We also searched for cycles other than\nbenzonitrile, and found evidence of indene (C9H8), cyclopentadiene (C5H6), and\n1-cyano cyclopentadiene (1-C5H5CN) at the 9.3 sigma, 7.5 sigma, and 8.4 sigma,\nrespectively, toward L1495B, which shows the strongest signal from C6H5CN. The\nrelative abundances between the various cycles detected in L1495B are\nconsistent, within a factor of three, to those found previously in TMC-1. It is\ntherefore likely that not only C6H5CN but also other large aromatic cycles are\nabundant in clouds rich in carbon chains.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:00:31 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Agundez","M.",""],["Marcelino","N.",""],["Tercero","B.",""],["Cernicharo","J.",""]]}
+{"id":"2308.15952","submitter":"Anton Alekseev","authors":"Anton Alekseev, Sergey I. Nikolenko, Gulnara Kabaeva","title":"Benchmarking Multilabel Topic Classification in the Kyrgyz Language","comments":"Accepted to AIST 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Kyrgyz is a very underrepresented language in terms of modern natural\nlanguage processing resources. In this work, we present a new public benchmark\nfor topic classification in Kyrgyz, introducing a dataset based on collected\nand annotated data from the news site 24.KG and presenting several baseline\nmodels for news classification in the multilabel setting. We train and evaluate\nboth classical statistical and neural models, reporting the scores, discussing\nthe results, and proposing directions for future work.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:02:26 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Alekseev","Anton",""],["Nikolenko","Sergey I.",""],["Kabaeva","Gulnara",""]]}
+{"id":"2308.15953","submitter":"Ueli Angst","authors":"Federico Martinelli-Orlando, Shishir Mundra, Ueli M. Angst","title":"Mechanism of cathodic protection of iron and steel in porous media","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mtrl-sci","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Cathodic protection (CP) was introduced two centuries ago and since has found\nwidespread application in protecting structures such as pipelines, offshore\ninstallations, and bridges from corrosion. Despite its extensive use, the\nfundamental working mechanism of CP remains debated, particularly for metals in\nporous media such as soil. Here, we offer resolution to the long-standing\ndebate by employing in-situ and ex-situ characterisation techniques coupled\nwith electrochemical measurements to characterise the spatio-temporal changes\noccurring at the steel-electrolyte interface. We show that upon CP, the\ninterfacial electrolyte undergoes alkalinisation and deoxygenation, and that\ndepending on polarisation conditions, an iron oxide film can simultaneously\nform on the steel surface. We further demonstrate that these changes in\ninterfacial electrolyte chemistry and steel surface state result in altered\nanodic and cathodic reactions and their kinetics. We propose a mechanism of CP\nthat integrates the long debated theories, based on both concentration and\nactivation polarisation, complimentarily. Implications of this coherent\nscientific understanding for enhancing corrosion protection technologies and\nthe safe, economic, and environmental-friendly operation of critical\nsteel-based infrastructures are discussed.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:09:48 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Martinelli-Orlando","Federico",""],["Mundra","Shishir",""],["Angst","Ueli M.",""]]}
+{"id":"2308.15954","submitter":"Hiromu Nakano","authors":"Hiromu Nakano","title":"Fusion rules for the triplet $W$-algebra $\\mathcal{W}_{p_+,p_-}$","comments":"65 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.QA math-ph math.MP math.RT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We study the structure of fusion rules for the triplet $W$-algebra\n$\\mathcal{W}_{p_+,p_-}$. By using the vertex tensor category theory developed\nby Huang, Lepowsky and Zhang, we rederive certain non-semisimple fusion rules\ngiven by Gaberdiel-Runkel-Wood and Rasmussen. We further show that certain rank\ntwo and three indecomposable modules are self-dual.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:13:50 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Nakano","Hiromu",""]]}
+{"id":"2308.15955","submitter":"Vale Gonz\\'alez Lobos","authors":"Vale Gonz\\'alez Lobos, Fabrizio Arrigoni Battaia, Seok-Jun Chang, Max\n Gronke, Guinevere Kauffmann, Chian-Chou Chen, Hai Fu, Aura Obreja and\n Emanuele P. Farina","title":"Circumgalactic Ly$\\alpha$ emission around submillimeter-bright galaxies\n with different quasar contributions","comments":"17 pages, 9 figures, accepted for publication in ApJ","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We present VLT/MUSE observations targeting the extended Lyman-$\\alpha$\n(Ly$\\alpha$) emission of five high-redshift ($z\\sim$3-4) submillimeter galaxies\n(SMGs) with increasing quasar (QSO) radiation: two SMGs, two SMGs hosting a\nQSO, and one SMG hosting a QSO with a SMG companion (QSO+SMG). These sources\nshould be located in dark matter halos of comparable masses (average mass of\n$M_{\\rm DM}\\sim10^{12.2}\\,{\\rm M}_\\odot$). We quantify the luminosity and\nextent of the Ly$\\alpha$ emission, together with its kinematics, and examine\nfour Ly$\\alpha$ powering mechanisms: photoionization from QSOs/star formation,\nshocks by galactic/QSO outflows, gravitational cooling radiation, and\nLy$\\alpha$ photons resonant scattering. We find a variety of Ly$\\alpha$\nluminosities and extents, with the QSO+SMG system displaying the most extended\nand bright nebula, followed by the SMGs hosting a QSO, and finally the\nundetected circumgalactic medium (CGM) of SMGs. This diversity implies that\ngravitational cooling is unlikely to be the main powering mechanism. We show\nthat photoionization from the QSO and QSO outflows can contribute to power the\nemission for average densities $n_{\\rm H}>0.5\\,$cm$^{-3}$. Moreover, the\nobserved Ly$\\alpha$ luminosities scale with the QSO's budget of Ly$\\alpha$\nphotons modulo the dust content in each galaxy, highlighting a possible\ncontribution from resonant scattering of QSO's radiation in powering the\nnebulae. We find larger Ly$\\alpha$ linewidths (FWHM$\\gtrsim\n1200\\,$km$\\,$s$^{-1}$) than usually reported around radio-quiet systems,\npointing to large-scale outflows. A statistical survey targeting similar\nhigh-redshift massive systems with known host properties is needed to confirm\nour findings.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:16:31 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Lobos","Vale Gonz\u00e1lez",""],["Battaia","Fabrizio Arrigoni",""],["Chang","Seok-Jun",""],["Gronke","Max",""],["Kauffmann","Guinevere",""],["Chen","Chian-Chou",""],["Fu","Hai",""],["Obreja","Aura",""],["Farina","Emanuele P.",""]]}
+{"id":"2308.15956","submitter":"Emanuele Greco","authors":"Emanuele Greco, Jacco Vink, Amael Ellien, Carlo Ferrigno","title":"Jitter radiation as an alternative mechanism for the nonthermal X-ray\n emission of Cassiopeia A","comments":"Accepted for publications on ApJ","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.HE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Synchrotron radiation from relativistic electrons is usually invoked as the\nresponsible for the nonthermal emission observed in Supernova Remnants (SNRs).\nDiffusive shock acceleration (DSA) is the most popular mechanism to explain the\nprocess of particles acceleration and within its framework a crucial role is\nplayed by the turbulent magnetic-field. However, the standard models commonly\nused to fit X-ray synchrotron emission do not take into account the effects of\nturbulence in the shape of the resulting photon spectra. An alternative\nmechanism that properly includes such effects is the jitter radiation, that\nprovides for an additional power-law beyond the classical synchrotron cutoff.\nWe fitted a jitter spectral model to Chandra, NuSTAR, SWIFT/BAT and\nINTEGRAL/ISGRI spectra of Cassiopeia A and found that it describes the X-ray\nsoft-to-hard range better than any of the standard cutoff models. The jitter\nradiation allows us to measure the index of the magnetic turbulence spectrum\n$\\nu_B$ and the minimum scale of the turbulence $\\lambda_{\\rm{min}}$ across\nseveral regions of Cas A, with best-fit values $\\nu_B \\sim 2-2.4$ and\n$\\lambda_{\\rm{min}} \\lesssim 100$ km.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:17:03 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Greco","Emanuele",""],["Vink","Jacco",""],["Ellien","Amael",""],["Ferrigno","Carlo",""]]}
+{"id":"2308.15957","submitter":"Diego Royo","authors":"Diego Royo and Zesheng Huang and Yun Liang and Boyan Song and Adolfo\n Mu\\~noz and Diego Gutierrez and Julio Marco","title":"Structure-Aware Parametric Representations for Time-Resolved Light\n Transport","comments":null,"journal-ref":null,"doi":"10.1364/OL.465316","report-no":null,"categories":"eess.SP","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Time-resolved illumination provides rich spatio-temporal information for\napplications such as accurate depth sensing or hidden geometry reconstruction,\nbecoming a useful asset for prototyping and as input for data-driven\napproaches. However, time-resolved illumination measurements are\nhigh-dimensional and have a low signal-to-noise ratio, hampering their\napplicability in real scenarios. We propose a novel method to compactly\nrepresent time-resolved illumination using mixtures of exponentially-modified\nGaussians that are robust to noise and preserve structural information. Our\nmethod yields representations two orders of magnitude smaller than discretized\ndata, providing consistent results in applications such as hidden scene\nreconstruction and depth estimation, and quantitative improvements over\nprevious approaches.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:23:42 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Royo","Diego",""],["Huang","Zesheng",""],["Liang","Yun",""],["Song","Boyan",""],["Mu\u00f1oz","Adolfo",""],["Gutierrez","Diego",""],["Marco","Julio",""]]}
+{"id":"2308.15958","submitter":"Tamara Servi Dr.","authors":"Raf Cluckers, Georges Comte, Tamara Servi","title":"Parametric Fourier and Mellin transforms of power-constructible\n functions","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.CA math.AG math.LO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We enrich the class of power-constructible functions, introduced in [CCRS23],\nto a class of algebras of functions which contains all complex powers of\nsubanalytic functions, their parametric Mellin and Fourier transforms, and\nwhich is stable under parametric integration. By describing a set of generators\nof a special prepared form we deduce information on the asymptotics and on the\nloci of integrability of the functions of the class. We furthermore identify a\nsubclass which is the smallest class containing all power-constructible\nfunctions and stable under parametric Fourier transforms and right-composition\nwith subanalytic maps. This subclass is also stable under parametric\nintegration, under taking pointwise and $L^p$limits, and under parametric\nFourier-Plancherel transforms. Finally, we give a full asymptotic expansion in\nthe power-logarithmic scale, uniformly in the parameters, for functions in this\nsubclass.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:23:43 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Cluckers","Raf",""],["Comte","Georges",""],["Servi","Tamara",""]]}
+{"id":"2308.15959","submitter":"Adam Doliwa","authors":"Adam Doliwa","title":"B\\\"{a}cklund transformations as integrable discretization. The geometric\n approach","comments":"18 pages, 4 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"nlin.SI math.DG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We present interpretation of known results in the theory of discrete\nasymptotic and discrete conjugate nets from the \"discretization by B\\\"{a}cklund\ntransformations\" point of view. We collect both classical formulas of XIXth\ncentury differential geometry of surfaces and their transformations, and more\nrecent results from geometric theory of integrable discrete equations. We first\npresent transformations of hyperbolic surfaces within the context of the\nMoutard equation and Weingarten congruences. The permutability property of the\ntransformations provides a way to construct integrable discrete analogs of the\nasymptotic nets for such surfaces. Then after presenting the theory of\nconjugate nets and their transformations we apply the principle that\nB\\\"{a}cklund transformations provide integrable discretization to obtain known\nresults on the discrete conjugate nets. The same approach gives, via the\nRibaucour transformations, discrete integrable analogs of orthogonal conjugate\nnets.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:24:04 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Doliwa","Adam",""]]}
+{"id":"2308.15960","submitter":"Harshith Mohan Kumar","authors":"Harshith Mohan Kumar, Sean Lawrence","title":"Fusing Pseudo Labels with Weak Supervision for Dynamic Traffic Scenarios","comments":"This work was accepted as an extended abstract at the International\n Conference on Computer Vision (ICCV) 2023 BRAVO Workshop, Paris, France","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Advanced Driver Assistance Systems (ADAS) have made significant strides,\ncapitalizing on computer vision to enhance perception and decision-making\ncapabilities. Nonetheless, the adaptation of these systems to diverse traffic\nscenarios poses challenges due to shifts in data distribution stemming from\nfactors such as location, weather, and road infrastructure. To tackle this, we\nintroduce a weakly-supervised label unification pipeline that amalgamates\npseudo labels from a multitude of object detection models trained on\nheterogeneous datasets. Our pipeline engenders a unified label space through\nthe amalgamation of labels from disparate datasets, rectifying bias and\nenhancing generalization. We fine-tune multiple object detection models on\nindividual datasets, subsequently crafting a unified dataset featuring pseudo\nlabels, meticulously validated for precision. Following this, we retrain a\nsolitary object detection model using the merged label space, culminating in a\nresilient model proficient in dynamic traffic scenarios. We put forth a\ncomprehensive evaluation of our approach, employing diverse datasets\noriginating from varied Asian countries, effectively demonstrating its efficacy\nin challenging road conditions. Notably, our method yields substantial\nenhancements in object detection performance, culminating in a model with\nheightened resistance against domain shifts.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:33:07 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kumar","Harshith Mohan",""],["Lawrence","Sean",""]]}
+{"id":"2308.15961","submitter":"Francesco Dalla Serra","authors":"Francesco Dalla Serra, Chaoyang Wang, Fani Deligianni, Jeffrey Dalton,\n Alison Q. O'Neil","title":"Finding-Aware Anatomical Tokens for Chest X-Ray Automated Reporting","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV cs.CL","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" The task of radiology reporting comprises describing and interpreting the\nmedical findings in radiographic images, including description of their\nlocation and appearance. Automated approaches to radiology reporting require\nthe image to be encoded into a suitable token representation for input to the\nlanguage model. Previous methods commonly use convolutional neural networks to\nencode an image into a series of image-level feature map representations.\nHowever, the generated reports often exhibit realistic style but imperfect\naccuracy. Inspired by recent works for image captioning in the general domain\nin which each visual token corresponds to an object detected in an image, we\ninvestigate whether using local tokens corresponding to anatomical structures\ncan improve the quality of the generated reports. We introduce a novel\nadaptation of Faster R-CNN in which finding detection is performed for the\ncandidate bounding boxes extracted during anatomical structure localisation. We\nuse the resulting bounding box feature representations as our set of\nfinding-aware anatomical tokens. This encourages the extracted anatomical\ntokens to be informative about the findings they contain (required for the\nfinal task of radiology reporting). Evaluating on the MIMIC-CXR dataset of\nchest X-Ray images, we show that task-aware anatomical tokens give\nstate-of-the-art performance when integrated into an automated reporting\npipeline, yielding generated reports with improved clinical accuracy.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:35:21 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Serra","Francesco Dalla",""],["Wang","Chaoyang",""],["Deligianni","Fani",""],["Dalton","Jeffrey",""],["O'Neil","Alison Q.",""]]}
+{"id":"2308.15962","submitter":"Tianyu Wang","authors":"Tianyu Wang, Yifan Li, Haitao Lin, Xiangyang Xue, Yanwei Fu","title":"WALL-E: Embodied Robotic WAiter Load Lifting with Large Language Model","comments":"14 pages, 8 figures. See https://star-uu-wang.github.io/WALL-E/","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.RO cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Enabling robots to understand language instructions and react accordingly to\nvisual perception has been a long-standing goal in the robotics research\ncommunity. Achieving this goal requires cutting-edge advances in natural\nlanguage processing, computer vision, and robotics engineering. Thus, this\npaper mainly investigates the potential of integrating the most recent Large\nLanguage Models (LLMs) and existing visual grounding and robotic grasping\nsystem to enhance the effectiveness of the human-robot interaction. We\nintroduce the WALL-E (Embodied Robotic WAiter load lifting with Large Language\nmodel) as an example of this integration. The system utilizes the LLM of\nChatGPT to summarize the preference object of the users as a target instruction\nvia the multi-round interactive dialogue. The target instruction is then\nforwarded to a visual grounding system for object pose and size estimation,\nfollowing which the robot grasps the object accordingly. We deploy this\nLLM-empowered system on the physical robot to provide a more user-friendly\ninterface for the instruction-guided grasping task. The further experimental\nresults on various real-world scenarios demonstrated the feasibility and\nefficacy of our proposed framework. See the project website at:\nhttps://star-uu-wang.github.io/WALL-E/\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:35:21 GMT"},{"version":"v2","created":"Thu, 31 Aug 2023 13:51:56 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Wang","Tianyu",""],["Li","Yifan",""],["Lin","Haitao",""],["Xue","Xiangyang",""],["Fu","Yanwei",""]]}
+{"id":"2308.15963","submitter":"Hui Deng","authors":"Kai Sun and Hui Deng","title":"Polariton-Induced Unconventional Superconductivity and Emergent SU(2)\n Symmetry in Moire flat bands","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.str-el cond-mat.quant-gas","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" We propose a polariton-moir\\'e coupled system to realize an exact solvable\nmodel of strongly correlated superconductors. The polariton condensate induces\nintervalley attraction between moir\\'e electrons in quasi-flat topological\nbands, leading to emergent SU(2) symmetry and exactly solutions of the\nmany-body ground state. This system expands the condensate-induced\nsuperconductivity to the strong-correlation regime, enabling superconductivity\nat elevated temperatures and allowing the study of non-Fermi liquid states with\na solvable, predictive model. It is promising as a versatile platform for\nemulating unconventional superconductivity and other strongly correlated\nphenomena in complex, correlated materials.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:40:26 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Sun","Kai",""],["Deng","Hui",""]]}
+{"id":"2308.15964","submitter":"B\\'erenger Bramas","authors":"Paul Cardosi, B\\'erenger Bramas","title":"Specx: a C++ task-based runtime system for heterogeneous distributed\n architectures","comments":"Research report. https://gitlab.inria.fr/bramas/specx","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DC cs.SE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Parallelization is needed everywhere, from laptops and mobile phones to\nsupercomputers. Among parallel programming models, task-based programming has\ndemonstrated a powerful potential and is widely used in high-performance\nscientific computing. Not only does it allow for efficient parallelization\nacross distributed heterogeneous computing nodes, but it also allows for\nelegant source code structuring by describing hardware-independent algorithms.\nIn this paper, we present Specx, a task-based runtime system written in modern\nC++. Specx supports distributed heterogeneous computing by simultaneously\nexploiting CPUs and GPUs (CUDA/HIP) and incorporating communication into the\ntask graph. We describe the specificities of Specx and demonstrate its\npotential by running parallel applications.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:41:30 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Cardosi","Paul",""],["Bramas","B\u00e9renger",""]]}
+{"id":"2308.15965","submitter":"Xin-She Yang","authors":"Geethu Joy, Christian Huyck, Xin-She Yang","title":"Review of Parameter Tuning Methods for Nature-Inspired Algorithms","comments":null,"journal-ref":null,"doi":"10.1007/978-981-99-3970-1_3","report-no":null,"categories":"cs.AI cs.NE math.OC","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Almost all optimization algorithms have algorithm-dependent parameters, and\nthe setting of such parameter values can largely influence the behaviour of the\nalgorithm under consideration. Thus, proper parameter tuning should be carried\nout to ensure the algorithm used for optimization may perform well and can be\nsufficiently robust for solving different types of optimization problems. This\nchapter reviews some of the main methods for parameter tuning and then\nhighlights the important issues concerning the latest development in parameter\ntuning. A few open problems are also discussed with some recommendations for\nfuture research.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:41:39 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Joy","Geethu",""],["Huyck","Christian",""],["Yang","Xin-She",""]]}
+{"id":"2308.15966","submitter":"Anis Kacem","authors":"Dimitrios Mallis, Sk Aziz Ali, Elona Dupont, Kseniya Cherenkova, Ahmet\n Serdar Karadeniz, Mohammad Sadil Khan, Anis Kacem, Gleb Gusev, Djamila Aouada","title":"SHARP Challenge 2023: Solving CAD History and pArameters Recovery from\n Point clouds and 3D scans. Overview, Datasets, Metrics, and Baselines","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" Recent breakthroughs in geometric Deep Learning (DL) and the availability of\nlarge Computer-Aided Design (CAD) datasets have advanced the research on\nlearning CAD modeling processes and relating them to real objects. In this\ncontext, 3D reverse engineering of CAD models from 3D scans is considered to be\none of the most sought-after goals for the CAD industry. However, recent\nefforts assume multiple simplifications limiting the applications in real-world\nsettings. The SHARP Challenge 2023 aims at pushing the research a step closer\nto the real-world scenario of CAD reverse engineering through dedicated\ndatasets and tracks. In this paper, we define the proposed SHARP 2023 tracks,\ndescribe the provided datasets, and propose a set of baseline methods along\nwith suitable evaluation metrics to assess the performance of the track\nsolutions. All proposed datasets along with useful routines and the evaluation\nmetrics are publicly available.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:42:54 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Mallis","Dimitrios",""],["Ali","Sk Aziz",""],["Dupont","Elona",""],["Cherenkova","Kseniya",""],["Karadeniz","Ahmet Serdar",""],["Khan","Mohammad Sadil",""],["Kacem","Anis",""],["Gusev","Gleb",""],["Aouada","Djamila",""]]}
+{"id":"2308.15967","submitter":"Yurii V. Dumin","authors":"Yurii V. Dumin, Anastasiia T. Lukashenko","title":"On the Efficiency of Disorder-induced Heating of Ultracold Plasmas","comments":"LaTeX2e, revtex4-1 documentclass, 5 pages, 4 EPS figures, submitted\n to Physics of Plasmas","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.plasm-ph physics.atom-ph physics.comp-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Starting from the beginning of their research in the early 2000's, the\nultracold plasmas were considered as a promising tool to achieve considerable\nvalues of the Coulomb coupling parameter for electrons. Unfortunately, this was\nfound to be precluded by a sharp spontaneous increase of temperature, which was\ncommonly attributed to the so-called disorder-induced heating (DIH). It is the\naim of the present paper to quantify this effect as function of the initial\nionic disorder and, thereby, to estimate the efficiency of its mitigation,\ne.g., by the Rydberg blockade. As a result of the performed simulations, we\nfound that the dynamics of electrons exhibited a well-expressed transition from\nthe case of the quasi-regular arrangement of ions to the disordered one; the\nmagnitude of the effect being about 30%. Thereby, we can conclude that the\ntwo-step formation of ultracold plasmas - involving the intermediate stage of\nthe blockaded Rydberg gas - can really serve as a tool to increase the degree\nof Coulomb coupling, but the efficiency of this method is moderate.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:44:31 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Dumin","Yurii V.",""],["Lukashenko","Anastasiia T.",""]]}
+{"id":"2308.15968","submitter":"Pranav Kasela","authors":"Elias Bassani, Pranav Kasela, Gabriella Pasi","title":"Denoising Attention for Query-aware User Modeling in Personalized Search","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The personalization of search results has gained increasing attention in the\npast few years, thanks to the development of Neural Networks-based approaches\nfor Information Retrieval and the importance of personalization in many search\nscenarios. Recent works have proposed to build user models at query time by\nleveraging the Attention mechanism, which allows weighing the contribution of\nthe user-related information w.r.t. the current query. This approach allows\ntaking into account the diversity of the user's interests by giving more\nimportance to those related to the current search performed by the user.\n In this paper, we first discuss some shortcomings of the standard Attention\nformulation when employed for personalization. In particular, we focus on\nissues related to its normalization mechanism and its inability to entirely\nfilter out noisy user-related information. Then, we introduce the Denoising\nAttention mechanism: an Attention variant that directly tackles the above\nshortcomings by adopting a robust normalization scheme and introducing a\nfiltering mechanism. The reported experimental evaluation shows the benefits of\nthe proposed approach over other Attention-based variants.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:45:35 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Bassani","Elias",""],["Kasela","Pranav",""],["Pasi","Gabriella",""]]}
+{"id":"2308.15969","submitter":"Jasmina Gajcin","authors":"Jasmina Gajcin, James McCarthy, Rahul Nair, Radu Marinescu, Elizabeth\n Daly, Ivana Dusparic","title":"Iterative Reward Shaping using Human Feedback for Correcting Reward\n Misspecification","comments":"7 pages, 2 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AI","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" A well-defined reward function is crucial for successful training of an\nreinforcement learning (RL) agent. However, defining a suitable reward function\nis a notoriously challenging task, especially in complex, multi-objective\nenvironments. Developers often have to resort to starting with an initial,\npotentially misspecified reward function, and iteratively adjusting its\nparameters, based on observed learned behavior. In this work, we aim to\nautomate this process by proposing ITERS, an iterative reward shaping approach\nusing human feedback for mitigating the effects of a misspecified reward\nfunction. Our approach allows the user to provide trajectory-level feedback on\nagent's behavior during training, which can be integrated as a reward shaping\nsignal in the following training iteration. We also allow the user to provide\nexplanations of their feedback, which are used to augment the feedback and\nreduce user effort and feedback frequency. We evaluate ITERS in three\nenvironments and show that it can successfully correct misspecified reward\nfunctions.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:45:40 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Gajcin","Jasmina",""],["McCarthy","James",""],["Nair","Rahul",""],["Marinescu","Radu",""],["Daly","Elizabeth",""],["Dusparic","Ivana",""]]}
+{"id":"2308.15970","submitter":"Bocheng Zhu","authors":"Bocheng Zhu, Feng Yuan, Suoqing Ji, Yingjie Peng, and Luis C. Ho","title":"On the dominant role of wind in the quasar feedback mode in the late\n stage evolution of massive elliptical galaxies","comments":"15 pages, 14 figures. Accepted for publication in MNRAS","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper we investigate the role of AGN feedback on the late stage\nevolution of elliptical galaxies by performing high-resolution hydrodynamical\nsimulation in the {\\it MACER} framework. By comparing models that take into\naccount different feedback mechanisms, namely AGN and stellar feedback, we find\nthat AGN feedback is crucial in keeping the black hole in a low accretion state\nand suppressing the star formation. We then compare the energy from AGN\nradiation and wind deposited in the galaxy and find that only wind can\ncompensate for the radiative cooling of the gas in the galaxy. Further, we\ninvestigate which plays the dominant role, the wind from the cold (quasar) or\nhot (radio) feedback modes, by examining the cumulative energy output and\nimpact area to which the wind can heat the interstellar medium and suppress\nstar formation. Our results indicate that first, although AGN spends most of\nits time in hot (radio) mode, the cumulative energy output is dominated by the\noutburst of the cold mode. Second, only the impact area of the cold-mode wind\nis large enough to heat the gas in the halo, while the hot-mode wind is not.\nAdditionally, the cold-mode wind is capable of sweeping up the material from\nstellar mass loss. These results indicate the dominant role of cold-mode wind.\nThe limitations of our model, including the absence of jet feedback, are\ndiscussed.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:49:03 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Zhu","Bocheng",""],["Yuan","Feng",""],["Ji","Suoqing",""],["Peng","Yingjie",""],["Ho","Luis C.",""]]}
+{"id":"2308.15971","submitter":"Sigmundur Gudmundsson","authors":"Sigmundur Gudmundsson and Thomas Jack Munn","title":"Harmonic Morphisms on Lie groups and Minimal Conformal Foliations of\n Codimension two","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.DG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Let G be a Lie group equipped with a left-invariant semi-Riemannian metric.\nLet K be a semisimple subgroup of G generating a left-invariant conformal\nfoliation F of codimension two on G. We then show that the foliation F is\nminimal. This means that locally the leaves of F are fibres of a complex-valued\nharmonic morphism. In the Riemannian case, we prove that if the metric\nrestricted to K is biinvariant then F is totally geodesic.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:49:25 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Gudmundsson","Sigmundur",""],["Munn","Thomas Jack",""]]}
+{"id":"2308.15972","submitter":"Alexander Venus MSc","authors":"Alexander Venus, Erik Leitinger, Stefan Tertinek, Klaus Witrisal","title":"A Neural-enhanced Factor Graph-based Algorithm for Robust Positioning in\n Obstructed LOS Situations","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SP","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" This paper presents a neural-enhanced probabilistic model and corresponding\nfactor graph-based sum-product algorithm for robust localization and tracking\nin multipath-prone environments. The introduced hybrid probabilistic model\nconsists of physics-based and data-driven measurement models capturing the\ninformation contained in both, the line-of-sight (LOS) component as well as in\nmultipath components (NLOS components). The physics-based and data-driven\nmodels are embedded in a joint Bayesian framework allowing to derive from first\nprinciples a factor graph-based algorithm that fuses the information of these\nmodels. The proposed algorithm uses radio signal measurements from multiple\nbase stations to robustly estimate the mobile agent's position together with\nall model parameters. It provides high localization accuracy by exploiting the\nposition-related information of the LOS component via the physics-based model\nand robustness by exploiting the geometric imprint of multipath components\nindependent of the propagation channel via the data-driven model. In a\nchallenging numerical experiment involving obstructed LOS situations to all\nanchors, we show that the proposed sequential algorithm significantly\noutperforms state-of-the-art methods and attains the posterior Cramer-Rao lower\nbound even with training data limited to local regions.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:50:22 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Venus","Alexander",""],["Leitinger","Erik",""],["Tertinek","Stefan",""],["Witrisal","Klaus",""]]}
+{"id":"2308.15973","submitter":"Peizheng Li","authors":"Peizheng Li, Adnan Aijaz, Tim Farnham, Sajida Gufran, Sita\n Chintalapati","title":"Demo: A Digital Twin of the 5G Radio Access Network for Anomaly\n Detection Functionality","comments":"2 pages, 2 figures. This paper has been accepted by the 31st IEEE\n International Conference on Network Protocols (ICNP 2023)","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.NI cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Recently, the concept of digital twins (DTs) has received significant\nattention within the realm of 5G/6G. This demonstration shows an innovative DT\ndesign and implementation framework tailored toward integration within the 5G\ninfrastructure. The proposed DT enables near real-time anomaly detection\ncapability pertaining to user connectivity. It empowers the 5G system to\nproactively execute decisions for resource control and connection restoration.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:51:38 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Li","Peizheng",""],["Aijaz","Adnan",""],["Farnham","Tim",""],["Gufran","Sajida",""],["Chintalapati","Sita",""]]}
+{"id":"2308.15974","submitter":"Micha{\\l} Marcinkowski","authors":"Michael Brandenbursky and Micha{\\l} Marcinkowski","title":"Volume and Euler classes in bounded cohomology of transformation groups","comments":"Comments welcome","journal-ref":null,"doi":null,"report-no":null,"categories":"math.GT math.DS math.GR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Let $M$ be an oriented smooth manifold, and $\\operatorname{Homeo}(M,\\omega)$\nthe group of measure preserving homeomorphisms of $M$, where $\\omega$ is a\nfinite measure induced by a volume form. In this paper we define volume and\nEuler classes in bounded cohomology of an infinite dimensional transformation\ngroup $\\operatorname{Homeo}_0(M,\\omega)$ and $\\operatorname{Homeo}(M,\\omega)$\nrespectively, and in several cases prove their non-triviality. More precisely,\nwe define:\n - Volume classes in $\\operatorname{H}_b^n(\\operatorname{Homeo}_0(M,\\omega))$\nwhere $M$ is a hyperbolic manifold of dimension $n$.\n - Euler classes in $\\operatorname{H}_b^2(\\operatorname{Homeo}(S,\\omega))$\nwhere $S$ is a closed hyperbolic surface.\n We show that Euler classes have positive norms for any closed hyperbolic $S$\nand volume classes have positive norms for all hyperbolic surfaces and certain\nhyperbolic $3$-manifolds, and hence they are non-trivial.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:52:17 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Brandenbursky","Michael",""],["Marcinkowski","Micha\u0142",""]]}
+{"id":"2308.15975","submitter":"Mel Vecerik","authors":"Mel Vecerik and Carl Doersch and Yi Yang and Todor Davchev and Yusuf\n Aytar and Guangyao Zhou and Raia Hadsell and Lourdes Agapito and Jon Scholz","title":"RoboTAP: Tracking Arbitrary Points for Few-Shot Visual Imitation","comments":"Project website: https://robotap.github.io","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.RO cs.AI cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" For robots to be useful outside labs and specialized factories we need a way\nto teach them new useful behaviors quickly. Current approaches lack either the\ngenerality to onboard new tasks without task-specific engineering, or else lack\nthe data-efficiency to do so in an amount of time that enables practical use.\nIn this work we explore dense tracking as a representational vehicle to allow\nfaster and more general learning from demonstration. Our approach utilizes\nTrack-Any-Point (TAP) models to isolate the relevant motion in a demonstration,\nand parameterize a low-level controller to reproduce this motion across changes\nin the scene configuration. We show this results in robust robot policies that\ncan solve complex object-arrangement tasks such as shape-matching, stacking,\nand even full path-following tasks such as applying glue and sticking objects\ntogether, all from demonstrations that can be collected in minutes.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:57:04 GMT"},{"version":"v2","created":"Thu, 31 Aug 2023 15:29:44 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Vecerik","Mel",""],["Doersch","Carl",""],["Yang","Yi",""],["Davchev","Todor",""],["Aytar","Yusuf",""],["Zhou","Guangyao",""],["Hadsell","Raia",""],["Agapito","Lourdes",""],["Scholz","Jon",""]]}
+{"id":"2308.15976","submitter":"Boquan Chen","authors":"Boquan Chen, Yuan-Sen Ting, Michael Hayden","title":"The dawn is quiet here: Rise in [$\\alpha$/Fe] is a signature of massive\n gas accretion that fueled proto-Milky Way","comments":"15 pages, 10 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The proto-Milky Way epoch forms the earliest stars in our Galaxy and sets the\ninitial conditions for subsequent disk formation. Recent observations from\nAPOGEE and H3 surveys showed that the [$\\alpha$/Fe] ratio slowly declined\nbetween [Fe/H] $=-3$ and $-1.3$ until it reached the lowest value ($\\sim 0.25$)\namong the selected in situ metal-poor stars that most likely formed during the\nproto-Galaxy epoch. [$\\alpha$/Fe] rose to meet the traditional high value\ncommonly associated with the thick disk population at [Fe/H] $=-1$. It was\nsuggested that the rise in [$\\alpha$/Fe] could be caused by an increase in the\nstar formation efficiency (SFE), known as the \"simmering\" phase scenario.\nHowever, gas inflow also plays a vital role in shaping the star formation\nhistory and chemical evolution of galaxies. We investigate this unexpected\n[$\\alpha$/Fe]-rise with a statistical experiment involving a galactic chemical\nevolution (GCE). Our model has five free parameters: the mass of the initial\nreservoir of the cold interstellar medium (ISM) at birth, the frequency of Type\nIa supernovae (SNe Ia), the cooling timescale of the warm ISM, the SFE, and the\ninflow rate of fresh gas. The last two free parameters were allowed to change\nafter [$\\alpha$/Fe] reached its lowest value, dividing the proto-Galaxy epoch\ninto two phases. We find that the rise in [$\\alpha$/Fe] is caused by a large\ninflow of fresh gas and conclude that the [$\\alpha$/Fe]-rise is a signature of\nthe cold mode accretion whose materials formed the prototype Milky Way\npreceding disk formation. Although the SFE is essential in regulating the\nchemical evolution, it does not necessarily increase to facilitate the\n[$\\alpha$/Fe]-rise.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:59:03 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Chen","Boquan",""],["Ting","Yuan-Sen",""],["Hayden","Michael",""]]}
+{"id":"2308.15977","submitter":"Peizheng Li","authors":"Tim Farnham, Sajida Gufran, Peizheng Li, Adnan Aijaz","title":"Demo: Integration of Marketplace for the 5G Open RAN Ecosystem","comments":"2 pages, 3 figures. This paper has been accepted by the 31st IEEE\n International Conference on Network Protocols (ICNP 2023)","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.NI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The Open RAN API and interface standards facilitate the new ecosystems where\ndistinct hardware and software components are brought together to build 5G\nsystems. Key to this concept is the seamless and efficient integration and\nmonetization process among stakeholders. A marketplace serves as a means to\nrealize this collaborative revenue sharing, eliminating the need for intricate\nproprietary agreements or contracts between each participant. This demo\npresents the marketplace strategy emphasizing software integration across\ndiverse deployment settings, utilizing the API-centric integration\nPlatform-as-a-Service (iPaas) model aligned with Open RAN standards.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 11:59:17 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Farnham","Tim",""],["Gufran","Sajida",""],["Li","Peizheng",""],["Aijaz","Adnan",""]]}
+{"id":"2308.15978","submitter":"Matthias Eder","authors":"Matthias Eder, Gerald Steinbauer-Wagner","title":"Predicting Energy Consumption and Traversal Time of Ground Robots for\n Outdoor Navigation on Multiple Types of Terrain","comments":"Accepted for publication in 2023 IEEE/RSJ International Conference on\n Intelligent Robots and Systems (IROS)","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.RO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The outdoor navigation capabilities of ground robots have improved\nsignificantly in recent years, opening up new potential applications in a\nvariety of settings. Cost-based representations of the environment are\nfrequently used in the path planning domain to obtain an optimized path based\non various objectives, such as traversal time or energy consumption. However,\nobtaining such cost representations is still cumbersome, particularly in\noutdoor settings with diverse terrain types and slope angles. In this paper, we\naddress this problem by using a data-driven approach to develop a cost\nrepresentation for various outdoor terrain types that supports two optimization\nobjectives, namely energy consumption and traversal time. We train a supervised\nmachine learning model whose inputs consists of extracted environment data\nalong a path and whose outputs are the predicted energy consumption and\ntraversal time. The model is based on a ResNet neural network architecture and\ntrained using field-recorded data. The error of the proposed method on\ndifferent types of terrain is within 11\\% of the ground truth data. To show\nthat it performs and generalizes better than currently existing approaches on\nvarious types of terrain, a comparison to a baseline method is made.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:05:32 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Eder","Matthias",""],["Steinbauer-Wagner","Gerald",""]]}
+{"id":"2308.15979","submitter":"Sungwon Park","authors":"Donghyun Ahn, Minhyuk Song, Seungeon Lee, Yubin Choi, Jihee Kim,\n Sangyoon Park, Hyunjoo Yang and Meeyoung Cha","title":"Fine-Grained Socioeconomic Prediction from Satellite Images with\n Distributional Adjustment","comments":"Published at CIKM '23 as a short paper","journal-ref":null,"doi":"10.1145/3583780.3615226","report-no":null,"categories":"cs.CY","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" While measuring socioeconomic indicators is critical for local governments to\nmake informed policy decisions, such measurements are often unavailable at\nfine-grained levels like municipality. This study employs deep learning-based\npredictions from satellite images to close the gap. We propose a method that\nassigns a socioeconomic score to each satellite image by capturing the\ndistributional behavior observed in larger areas based on the ground truth. We\ntrain an ordinal regression scoring model and adjust the scores to follow the\ncommon power law within and across regions. Evaluation based on official\nstatistics in South Korea shows that our method outperforms previous models in\npredicting population and employment size at both the municipality and grid\nlevels. Our method also demonstrates robust performance in districts with\nuneven development, suggesting its potential use in developing countries where\nreliable, fine-grained data is scarce.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:06:04 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Ahn","Donghyun",""],["Song","Minhyuk",""],["Lee","Seungeon",""],["Choi","Yubin",""],["Kim","Jihee",""],["Park","Sangyoon",""],["Yang","Hyunjoo",""],["Cha","Meeyoung",""]]}
+{"id":"2308.15980","submitter":"Hengchang Hu","authors":"Hengchang Hu, Wei Guo, Yong Liu, Min-Yen Kan","title":"Adaptive Multi-Modalities Fusion in Sequential Recommendation Systems","comments":"CIKM'2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In sequential recommendation, multi-modal information (e.g., text or image)\ncan provide a more comprehensive view of an item's profile. The optimal stage\n(early or late) to fuse modality features into item representations is still\ndebated. We propose a graph-based approach (named MMSR) to fuse modality\nfeatures in an adaptive order, enabling each modality to prioritize either its\ninherent sequential nature or its interplay with other modalities. MMSR\nrepresents each user's history as a graph, where the modality features of each\nitem in a user's history sequence are denoted by cross-linked nodes. The edges\nbetween homogeneous nodes represent intra-modality sequential relationships,\nand the ones between heterogeneous nodes represent inter-modality\ninterdependence relationships. During graph propagation, MMSR incorporates dual\nattention, differentiating homogeneous and heterogeneous neighbors. To\nadaptively assign nodes with distinct fusion orders, MMSR allows each node's\nrepresentation to be asynchronously updated through an update gate. In\nscenarios where modalities exhibit stronger sequential relationships, the\nupdate gate prioritizes updates among homogeneous nodes. Conversely, when the\ninterdependent relationships between modalities are more pronounced, the update\ngate prioritizes updates among heterogeneous nodes. Consequently, MMSR\nestablishes a fusion order that spans a spectrum from early to late modality\nfusion. In experiments across six datasets, MMSR consistently outperforms\nstate-of-the-art models, and our graph propagation methods surpass other graph\nneural networks. Additionally, MMSR naturally manages missing modalities.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:09:18 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Hu","Hengchang",""],["Guo","Wei",""],["Liu","Yong",""],["Kan","Min-Yen",""]]}
+{"id":"2308.15981","submitter":"Veronica Leccese","authors":"Veronica Leccese, Michele Caldara, Samuele Bisi, Marcello Pagano,\n Simone Gargiulo, Carlotta Trigila, Arnaud Bertsch, Alessandro Mapelli,\n Fabrizio Carbone","title":"Microstructured Plastic Scintillators For Beam Profiling In Medical\n Accelerators","comments":"11 pages, 12 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.ins-det hep-ex","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" A novel beam profiler based on microstructured scintillation resin is\npresented. The detector consists of a bundle of waveguides, with an active area\nof 30 x 30 mm$^2$ and a pitch of 400 $\\mu$m, obtained by molding a\nscintillating resin into a microfabricated PDMS mold. A first prototype,\ncoupled to an array of photodiodes and readout electronics, which potentially\nallows profile rates of more than 7 kHz, has been tested using both a UV source\nand a proton beam accelerated at different energies, such as those typically\nused in proton therapy. The results obtained during the experimental test\ncampaigns were compared with theoretical simulations showing a good agreement\nwith the modeling expectations, thus confirming the validity of this novel\ndesign for microstructured scintillating detectors.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:10:02 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Leccese","Veronica",""],["Caldara","Michele",""],["Bisi","Samuele",""],["Pagano","Marcello",""],["Gargiulo","Simone",""],["Trigila","Carlotta",""],["Bertsch","Arnaud",""],["Mapelli","Alessandro",""],["Carbone","Fabrizio",""]]}
+{"id":"2308.15982","submitter":"Shwai He","authors":"Shwai He, Run-Ze Fan, Liang Ding, Li Shen, Tianyi Zhou, Dacheng Tao","title":"MerA: Merging Pretrained Adapters For Few-Shot Learning","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Adapter tuning, which updates only a few parameters, has become a mainstream\nmethod for fine-tuning pretrained language models to downstream tasks. However,\nit often yields subpar results in few-shot learning. AdapterFusion, which\nassembles pretrained adapters using composition layers tailored to specific\ntasks, is a possible solution but significantly increases trainable parameters\nand deployment costs. Despite this, our preliminary study reveals that even\nsingle adapters can outperform Adapterfusion in few-shot learning, urging us to\npropose \\textbf{\\texttt{Merging Pretrained Adapters}} (MerA) that efficiently\nincorporates pretrained adapters to a single model through model fusion.\nExtensive experiments on two PLMs demonstrate that MerA achieves substantial\nimprovements compared to both single adapters and AdapterFusion. To further\nenhance the capacity of MerA, we also introduce a simple yet effective\ntechnique, referred to as the \"\\textit{same-track}\" setting, that merges\nadapters from the same track of pretraining tasks. With the implementation of\nthe \"\\textit{same-track}\" setting, we observe even more impressive gains,\nsurpassing the performance of both full fine-tuning and adapter tuning by a\nsubstantial margin, e.g., 3.5\\% in MRPC and 5.0\\% in MNLI.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:10:17 GMT"}],"update_date":"2023-08-31","authors_parsed":[["He","Shwai",""],["Fan","Run-Ze",""],["Ding","Liang",""],["Shen","Li",""],["Zhou","Tianyi",""],["Tao","Dacheng",""]]}
+{"id":"2308.15983","submitter":"Hannah Christine Sabo","authors":"Hannah C. Sabo, Tor Ole B. Odden, and Marcos D. Caballero","title":"How do we assess computation in physics?","comments":"7 pages, 2 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.ed-ph","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" In recent years, computing has become an important part of the way we teach\nand learn physics. Teachers, both at high school and college levels, now use\ncomputational activities in many of their courses. Physics departments are\noffering specialized courses and degrees in computational physics. And many\ncountries are adding programming or computational thinking to their secondary\nscience education standards. Although we know more about how to teach\ncomputation, that's only half the picture; we need to know how to assess it. In\nthis paper, we provide a snapshot of some commonly used assessment activities\nand forms.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:11:34 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Sabo","Hannah C.",""],["Odden","Tor Ole B.",""],["Caballero","Marcos D.",""]]}
+{"id":"2308.15984","submitter":"Lucas Brynte","authors":"Lucas Brynte and Jos\\'e Pedro Iglesias and Carl Olsson and Fredrik\n Kahl","title":"Learning Structure-from-Motion with Graph Attention Networks","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper we tackle the problem of learning Structure-from-Motion (SfM)\nthrough the use of graph attention networks. SfM is a classic computer vision\nproblem that is solved though iterative minimization of reprojection errors,\nreferred to as Bundle Adjustment (BA), starting from a good initialization. In\norder to obtain a good enough initialization to BA, conventional methods rely\non a sequence of sub-problems (such as pairwise pose estimation, pose averaging\nor triangulation) which provides an initial solution that can then be refined\nusing BA. In this work we replace these sub-problems by learning a model that\ntakes as input the 2D keypoints detected across multiple views, and outputs the\ncorresponding camera poses and 3D keypoint coordinates. Our model takes\nadvantage of graph neural networks to learn SfM-specific primitives, and we\nshow that it can be used for fast inference of the reconstruction for new and\nunseen sequences. The experimental results show that the proposed model\noutperforms competing learning-based methods, and challenges COLMAP while\nhaving lower runtime.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:13:13 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Brynte","Lucas",""],["Iglesias","Jos\u00e9 Pedro",""],["Olsson","Carl",""],["Kahl","Fredrik",""]]}
+{"id":"2308.15985","submitter":"Jianwu Fang","authors":"Jianwu Fang, iahuan Qiao, Jianru Xue, and Zhengguo Li","title":"Vision-Based Traffic Accident Detection and Anticipation: A Survey","comments":"accepted in IEEE Transactions on Circuits and Systems for Video\n Technology; 16 pages, 155 references","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Traffic accident detection and anticipation is an obstinate road safety\nproblem and painstaking efforts have been devoted. With the rapid growth of\nvideo data, Vision-based Traffic Accident Detection and Anticipation (named\nVision-TAD and Vision-TAA) become the last one-mile problem for safe driving\nand surveillance safety. However, the long-tailed, unbalanced, highly dynamic,\ncomplex, and uncertain properties of traffic accidents form the\nOut-of-Distribution (OOD) feature for Vision-TAD and Vision-TAA. Current AI\ndevelopment may focus on these OOD but important problems. What has been done\nfor Vision-TAD and Vision-TAA? What direction we should focus on in the future\nfor this problem? A comprehensive survey is important. We present the first\nsurvey on Vision-TAD in the deep learning era and the first-ever survey for\nVision-TAA. The pros and cons of each research prototype are discussed in\ndetail during the investigation. In addition, we also provide a critical review\nof 31 publicly available benchmarks and related evaluation metrics. Through\nthis survey, we want to spawn new insights and open possible trends for\nVision-TAD and Vision-TAA tasks.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:13:41 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Fang","Jianwu",""],["Qiao","iahuan",""],["Xue","Jianru",""],["Li","Zhengguo",""]]}
+{"id":"2308.15986","submitter":"Md Abdul Basit","authors":"Md Abdul Basit, Mahbub A.H.M. Latif, Abdus S Wahed","title":"Sensitivity Analysis for Causal Effects in Observational Studies with\n Multivalued Treatments","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"stat.ME","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" One of the fundamental challenges in drawing causal inferences from\nobservational studies is that the assumption of no unmeasured confounding is\nnot testable from observed data. Therefore, assessing sensitivity to this\nassumption's violation is important to obtain valid causal conclusions in\nobservational studies. Although several sensitivity analysis frameworks are\navailable in the casual inference literature, none of them are applicable to\nobservational studies with multivalued treatments. To address this issue, we\npropose a sensitivity analysis framework for performing sensitivity analysis in\nmultivalued treatment settings. Within this framework, a general class of\nadditive causal estimands has been proposed. We demonstrate that the estimation\nof the causal estimands under the proposed sensitivity model can be performed\nvery efficiently. Simulation results show that the proposed framework performs\nwell in terms of bias of the point estimates and coverage of the confidence\nintervals when there is sufficient overlap in the covariate distributions. We\nillustrate the application of our proposed method by conducting an\nobservational study that estimates the causal effect of fish consumption on\nblood mercury levels.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:15:23 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Basit","Md Abdul",""],["Latif","Mahbub A. H. M.",""],["Wahed","Abdus S",""]]}
+{"id":"2308.15987","submitter":"Yifan Zhang","authors":"Qingyuan Li, Yifan Zhang, Liang Li, Peng Yao, Bo Zhang, Xiangxiang\n Chu, Yerui Sun, Li Du, Yuchen Xie","title":"FPTQ: Fine-grained Post-Training Quantization for Large Language Models","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL cs.AI cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In the era of large-scale language models, the substantial parameter size\nposes significant challenges for deployment. Being a prevalent compression\ntechnique, quantization has emerged as the mainstream practice to tackle this\nissue, which is mainly centered on two recipes W8A8 and W4A16 (i.e. weights and\nactivations in such bit widths). In this study, we propose a novel W4A8\npost-training quantization method for the available open-sourced LLMs, which\ncombines the advantages of both two recipes. Therefore, we can leverage the\nbenefit in the I/O utilization of 4-bit weight quantization and the\nacceleration due to 8-bit matrix computation. Nevertheless, the W4A8 faces\nnotorious performance degradation. As a remedy, we involve layerwise activation\nquantization strategies which feature a novel logarithmic equalization for most\nintractable layers, and we combine them with fine-grained weight quantization.\nWithout whistles and bells, we eliminate the necessity for further fine-tuning\nand obtain the state-of-the-art W4A8 quantized performance on BLOOM, LLaMA, and\nLLaMA-2 on standard benchmarks. We confirm that the W4A8 quantization is\nachievable for the deployment of large language models, fostering their\nwide-spreading real-world applications.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:18:18 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Li","Qingyuan",""],["Zhang","Yifan",""],["Li","Liang",""],["Yao","Peng",""],["Zhang","Bo",""],["Chu","Xiangxiang",""],["Sun","Yerui",""],["Du","Li",""],["Xie","Yuchen",""]]}
+{"id":"2308.15988","submitter":"Tomer Adar","authors":"Tomer Adar and Eldar Fischer and Amit Levi","title":"Support Testing in the Huge Object Model","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DS","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The Huge Object model is a distribution testing model in which we are given\naccess to independent samples from an unknown distribution over the set of\nstrings $\\{0,1\\}^n$, but are only allowed to query a few bits from the samples.\n We investigate the problem of testing whether a distribution is supported on\n$m$ elements in this model. It turns out that the behavior of this property is\nsurprisingly intricate, especially when also considering the question of\nadaptivity.\n We prove lower and upper bounds for both adaptive and non-adaptive algorithms\nin the one-sided and two-sided error regime. Our bounds are tight when $m$ is\nfixed to a constant (and the distance parameter $\\varepsilon$ is the only\nvariable). For the general case, our bounds are at most $O(\\log m)$ apart.\n In particular, our results show a surprising $O(\\log \\varepsilon^{-1})$ gap\nbetween the number of queries required for non-adaptive testing as compared to\nadaptive testing. For one sided error testing, we also show that an $O(\\log m)$\ngap between the number of samples and the number of queries is necessary.\n Our results utilize a wide variety of combinatorial and probabilistic\nmethods.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:19:19 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Adar","Tomer",""],["Fischer","Eldar",""],["Levi","Amit",""]]}
+{"id":"2308.15989","submitter":"Dian Zheng","authors":"Dian Zheng, Xiao-Ming Wu, Zuhao Liu, Jingke Meng, Wei-shi Zheng","title":"DiffuVolume: Diffusion Model for Volume based Stereo Matching","comments":"17 pages, 11 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Stereo matching is a significant part in many computer vision tasks and\ndriving-based applications. Recently cost volume-based methods have achieved\ngreat success benefiting from the rich geometry information in paired images.\nHowever, the redundancy of cost volume also interferes with the model training\nand limits the performance. To construct a more precise cost volume, we\npioneeringly apply the diffusion model to stereo matching. Our method, termed\nDiffuVolume, considers the diffusion model as a cost volume filter, which will\nrecurrently remove the redundant information from the cost volume. Two main\ndesigns make our method not trivial. Firstly, to make the diffusion model more\nadaptive to stereo matching, we eschew the traditional manner of directly\nadding noise into the image but embed the diffusion model into a task-specific\nmodule. In this way, we outperform the traditional diffusion stereo matching\nmethod by 22% EPE improvement and 240 times inference acceleration. Secondly,\nDiffuVolume can be easily embedded into any volume-based stereo matching\nnetwork with boost performance but slight parameters rise (only 2%). By adding\nthe DiffuVolume into well-performed methods, we outperform all the published\nmethods on Scene Flow, KITTI2012, KITTI2015 benchmarks and zero-shot\ngeneralization setting. It is worth mentioning that the proposed model ranks\n1st on KITTI 2012 leader board, 2nd on KITTI 2015 leader board since 15, July\n2023.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:19:35 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Zheng","Dian",""],["Wu","Xiao-Ming",""],["Liu","Zuhao",""],["Meng","Jingke",""],["Zheng","Wei-shi",""]]}
+{"id":"2308.15990","submitter":"Aoqi Guo","authors":"Aoqi Guo and Sichong Qian and Baoxiang Li and Dazhi Gao","title":"Dual-path Transformer Based Neural Beamformer for Target Speech\n Extraction","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SD eess.AS","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Neural beamformers, integrating both pre-separation and beamforming modules,\nhave shown impressive efficacy in the target speech extraction task.\nNevertheless, the performance of these beamformers is inherently constrained by\nthe predictive accuracy of the pre-separation module. In this paper, we\nintroduce a neural beamformer underpinned by a dual-path transformer.\nInitially, we harness the cross-attention mechanism in the time domain,\nextracting pivotal spatial information related to beamforming from the noisy\ncovariance matrix. Subsequently, in the frequency domain, the self-attention\nmechanism is employed to bolster the model's capacity to process\nfrequency-specific details. By design, our model circumvents the influence of\npre-separation modules, delivering the performance in a more holistic\nend-to-end fashion. Experimental results reveal that our model not only\nsurpasses contemporary leading neural beamforming algorithms in separation\nperformance, but also achieves this with a notable reduction in parameter\ncount.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:22:58 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Guo","Aoqi",""],["Qian","Sichong",""],["Li","Baoxiang",""],["Gao","Dazhi",""]]}
+{"id":"2308.15991","submitter":"Yinda Xu","authors":"Yinda Xu, Lidong Yu","title":"DRL-Based Trajectory Tracking for Motion-Related Modules in Autonomous\n Driving","comments":"Technical report","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.RO cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Autonomous driving systems are always built on motion-related modules such as\nthe planner and the controller. An accurate and robust trajectory tracking\nmethod is indispensable for these motion-related modules as a primitive\nroutine. Current methods often make strong assumptions about the model such as\nthe context and the dynamics, which are not robust enough to deal with the\nchanging scenarios in a real-world system. In this paper, we propose a Deep\nReinforcement Learning (DRL)-based trajectory tracking method for the\nmotion-related modules in autonomous driving systems. The representation\nlearning ability of DL and the exploration nature of RL bring strong robustness\nand improve accuracy. Meanwhile, it enhances versatility by running the\ntrajectory tracking in a model-free and data-driven manner. Through extensive\nexperiments, we demonstrate both the efficiency and effectiveness of our method\ncompared to current methods.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:24:30 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Xu","Yinda",""],["Yu","Lidong",""]]}
+{"id":"2308.15992","submitter":"Bingqiao Luo","authors":"Bingqiao Luo, Zhen Zhang, Qian Wang, Anli Ke, Shengliang Lu, Bingsheng\n He","title":"AI-powered Fraud Detection in Decentralized Finance: A Project Life\n Cycle Perspective","comments":"38 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In recent years, blockchain technology has introduced decentralized finance\n(DeFi) as an alternative to traditional financial systems. DeFi aims to create\na transparent and efficient financial ecosystem using smart contracts and\nemerging decentralized applications. However, the growing popularity of DeFi\nhas made it a target for fraudulent activities, resulting in losses of billions\nof dollars due to various types of frauds. To address these issues, researchers\nhave explored the potential of artificial intelligence (AI) approaches to\ndetect such fraudulent activities. Yet, there is a lack of a systematic survey\nto organize and summarize those existing works and to identify the future\nresearch opportunities. In this survey, we provide a systematic taxonomy of\nvarious frauds in the DeFi ecosystem, categorized by the different stages of a\nDeFi project's life cycle: project development, introduction, growth, maturity,\nand decline. This taxonomy is based on our finding: many frauds have strong\ncorrelations in the stage of the DeFi project. According to the taxonomy, we\nreview existing AI-powered detection methods, including statistical modeling,\nnatural language processing and other machine learning techniques, etc. We find\nthat fraud detection in different stages employs distinct types of methods and\nobserve the commendable performance of tree-based and graph-related models in\ntackling fraud detection tasks. By analyzing the challenges and trends, we\npresent the findings to provide proactive suggestion and guide future research\nin DeFi fraud detection. We believe that this survey is able to support\nresearchers, practitioners, and regulators in establishing a secure and\ntrustworthy DeFi ecosystem.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:24:55 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Luo","Bingqiao",""],["Zhang","Zhen",""],["Wang","Qian",""],["Ke","Anli",""],["Lu","Shengliang",""],["He","Bingsheng",""]]}
+{"id":"2308.15993","submitter":"Paolo Torrielli","authors":"Luca Rottoli, Paolo Torrielli, Alessandro Vicini","title":"A new observable for $W$-mass determination","comments":"Proceeding of RADCOR2023","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph hep-ex","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this contribution we discuss the properties of the jacobian asymmetry, the\nnew observable introduced in hep-ph/2301.04059 for a robust determination of\nthe value and uncertainty of the $W$-boson mass at hadron colliders.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:25:34 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Rottoli","Luca",""],["Torrielli","Paolo",""],["Vicini","Alessandro",""]]}
+{"id":"2308.15994","submitter":"Stefan Steinerberger","authors":"Jeffrey S. Ovall, Hadrian Quan, Robyn Reid, Stefan Steinerberger","title":"On localization of eigenfunctions of the magnetic Laplacian","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.AP math.SP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Let $\\Omega \\subset \\mathbb{R}^d$ and consider the magnetic Laplace operator\ngiven by $ H(A) = \\left(- i\\nabla - A(x)\\right)^2$, where $A:\\Omega \\rightarrow\n\\mathbb{R}^d$, subject to Dirichlet eigenfunction. This operator can, for\ncertain vector fields $A$, have eigenfunctions $H(A) \\psi = \\lambda \\psi$ that\nare highly localized in a small region of $\\Omega$. The main goal of this paper\nis to show that if $|\\psi|$ assumes its maximum in $x_0 \\in \\Omega$, then $A$\nbehaves `almost' like a conservative vector field in a\n$1/\\sqrt{\\lambda}-$neighborhood of $x_0$ in a precise sense: we expect\nlocalization in regions where $\\left|\\mbox{curl} A \\right|$ is small. The\nresult is illustrated with numerical examples.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:28:42 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Ovall","Jeffrey S.",""],["Quan","Hadrian",""],["Reid","Robyn",""],["Steinerberger","Stefan",""]]}
+{"id":"2308.15995","submitter":"Maria Caruana","authors":"Salvatore Capozziello, Maria Caruana, Gabriel Farrugia, Jackson Levi\n Said, Joseph Sultana","title":"Cosmic Growth in $f(T)$ Teleparallel Gravity","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"gr-qc astro-ph.CO hep-th","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Physical evolution of cosmological models can be tested by using expansion\ndata, while growth history of these models is capable of testing dynamics of\nthe inhomogeneous parts of energy density. The growth factor, as well as its\ngrowth index, gives a clear indication of the performance of cosmological\nmodels in the regime of structure formation of early Universe. In this work, we\nexplore the growth index in several leading $f(T)$ cosmological models, based\non a specific class of teleparallel gravity theories. These have become\nprominent in the literature and lead to other formulations of teleparallel\ngravity. Here we adopt a generalized approach by obtaining the M\\'{e}sz\\'{a}ros\nequation without immediately imposing the subhorizon limit, because this\nassumption could lead to over-simplification. This approach gives avenue to\nstudy at which $k$ modes the subhorizon limit starts to apply. We obtain\nnumerical results for the growth factor and growth index for a variety of data\nset combinations for each $f(T)$ model.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:35:50 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Capozziello","Salvatore",""],["Caruana","Maria",""],["Farrugia","Gabriel",""],["Said","Jackson Levi",""],["Sultana","Joseph",""]]}
+{"id":"2308.15996","submitter":"Masato Fujitake","authors":"Masato Fujitake","title":"DTrOCR: Decoder-only Transformer for Optical Character Recognition","comments":"Accepted to WACV2024","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Typical text recognition methods rely on an encoder-decoder structure, in\nwhich the encoder extracts features from an image, and the decoder produces\nrecognized text from these features. In this study, we propose a simpler and\nmore effective method for text recognition, known as the Decoder-only\nTransformer for Optical Character Recognition (DTrOCR). This method uses a\ndecoder-only Transformer to take advantage of a generative language model that\nis pre-trained on a large corpus. We examined whether a generative language\nmodel that has been successful in natural language processing can also be\neffective for text recognition in computer vision. Our experiments demonstrated\nthat DTrOCR outperforms current state-of-the-art methods by a large margin in\nthe recognition of printed, handwritten, and scene text in both English and\nChinese.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:37:03 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Fujitake","Masato",""]]}
+{"id":"2308.15997","submitter":"Lampros Gavalakis","authors":"Alexandros Eskenazis and Lampros Gavalakis","title":"On the entropy and information of Gaussian mixtures","comments":"14 pages, no figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IT math.IT math.PR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We establish several convexity properties for the entropy and Fisher\ninformation of mixtures of centered Gaussian distributions. First, we prove\nthat if $X_1, X_2$ are independent scalar Gaussian mixtures, then the entropy\nof $\\sqrt{t}X_1 + \\sqrt{1-t}X_2$ is concave in $t \\in [0,1]$, thus confirming a\nconjecture of Ball, Nayar and Tkocz (2016) for this class of random variables.\nIn fact, we prove a generalisation of this assertion which also strengthens a\nresult of Eskenazis, Nayar and Tkocz (2018). For the Fisher information, we\nextend a convexity result of Bobkov (2022) by showing that the Fisher\ninformation matrix is operator convex as a matrix-valued function acting on\ndensities of mixtures in $\\mathbb{R}^d$. As an application, we establish rates\nfor the convergence of the Fisher information matrix of the sum of weighted\ni.i.d. Gaussian mixtures in the operator norm along the central limit theorem\nunder mild moment assumptions.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:37:42 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Eskenazis","Alexandros",""],["Gavalakis","Lampros",""]]}
+{"id":"2308.15998","submitter":"Jinlong Zhang","authors":"Zhaohuizi Ji, Xiaoyan Zhao, Aiqiang Guo, Qinghua Xu, and Jinlong Zhang","title":"Lambda polarization at Electron-ion collider in China","comments":"8 pages, 9 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"nucl-ex hep-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Lambda polarization can be measured through its self-analyzing weak decay,\nmaking it an ideal candidate for studying spin effects in high energy\nscatterings. In lepton-nucleon deeply inelastic scatterings (DIS), Lambda\npolarization measurements can probe the polarized parton distribution functions\n(PDFs) and the polarized fragmentation functions (FFs). One of the most\npromising facilities for high-energy nuclear physics research is the proposed\nElectron-ion collider in China (EicC). As a next-generation facility, EicC is\nset to propel our understandings of nuclear physics to new heights. In this\narticle, we study the Lambda production in electron-proton collision at EicC\nenergy, in particular Lambda's reconstruction based on the performance of the\ndesigned EicC detector. In addition, taking spontaneous transverse polarization\nas an example, we provide a theoretical prediction with statistical projection\nbased on one month of EicC data taking, offering valuable insights into future\nresearch prospects.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:38:27 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Ji","Zhaohuizi",""],["Zhao","Xiaoyan",""],["Guo","Aiqiang",""],["Xu","Qinghua",""],["Zhang","Jinlong",""]]}
+{"id":"2308.15999","submitter":"Julian Scheuer","authors":"Julian Scheuer and Xuwen Zhang","title":"Stability of the Wulff shape with respect to anisotropic curvature\n functionals","comments":"24 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.AP math.DG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" For a function $f$ which foliates a one-sided neighbourhood of a closed\nhypersurface $M$, we give an estimate of the distance of $M$ to a Wulff shape\nin terms of the $L^{p}$-norm of the traceless $F$-Hessian of $f$, where $F$ is\nthe support function of the Wulff shape. This theorem is applied to prove\nquantitative stability results for the anisotropic Heintze-Karcher inequality,\nthe anisotropic Alexandrov problem, as well as for the anisotropic\noverdetermined boundary value problem of Serrin-type.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:38:47 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Scheuer","Julian",""],["Zhang","Xuwen",""]]}
+{"id":"2308.16000","submitter":"Noora Kartiosuo","authors":"Noora Kartiosuo, Jaakko Nevalainen, Olli Raitakari, Katja Pahkala,\n Kari Auranen","title":"Hypothesis-driven mediation analysis for compositional data: an\n application to gut microbiome","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"stat.AP","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Biological sequencing data consist of read counts, e.g. of specified taxa and\noften exhibit sparsity (zero-count inflation) and overdispersion (extra-Poisson\nvariability). As most sequencing techniques provide an arbitrary total count,\ntaxon-specific counts should ideally be treated as proportions under the\ncompositional data-analytic framework. There is increasing interest in the role\nof the gut microbiome composition in mediating the effects of different\nexposures on health outcomes. Most previous approaches to compositional\nmediation have addressed the problem of identifying potentially mediating taxa\namong a large number of candidates. We here consider causal inference in\ncompositional mediation when a priori knowledge is available about the\nhierarchy for a restricted number of taxa, building on a single hypothesis\nstructured in terms of contrasts between appropriate sub-compositions. Based on\nthe theory on multiple contemporaneous mediators and the assumed causal graph,\nwe define non-parametric estimands for overall and coordinate-wise mediation\neffects, and show how these indirect effects can be estimated from empirical\ndata based on simple parametric linear models. The mediators have\nstraightforward and coherent interpretations, related to specific causal\nquestions about the interrelationships between the sub-compositions. We perform\na simulation study focusing on the impact of sparsity and overdispersion on\nestimation of mediation. While unbiased, the precision of the estimators\ndepends, for any given magnitude of indirect effect, on sparsity and the\nrelative magnitudes of exposure-to-mediator and mediator-to-outcome effects in\na complex manner. We demonstrate the approach on empirical data, finding an\ninverse association of fibre intake on insulin level, mainly attributable to\ndirect rather than indirect effects.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:39:02 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kartiosuo","Noora",""],["Nevalainen","Jaakko",""],["Raitakari","Olli",""],["Pahkala","Katja",""],["Auranen","Kari",""]]}
+{"id":"2308.16001","submitter":"Thanasis Giannakopoulos","authors":"Thanasis Giannakopoulos","title":"Characteristic formulations of general relativity and applications","comments":"179 pages, PhD Thesis, supplementary material at\n https://github.com/ThanasisGiannakopoulos/PhD-thesis-supp","journal-ref":null,"doi":null,"report-no":null,"categories":"gr-qc hep-th","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" General relativity can describe various gravitational systems of\nastrophysical relevance, like black holes and neutron stars, or even strongly\ncoupled systems through the holographic duality. The characteristic initial\n(boundary) value problem has numerous applications in general relativity\ninvolving numerical studies and is often formulated using Bondi-like\ncoordinates. Well-posedness of the resulting systems of partial differential\nequations, however, remains an open question. The answer to this question\naffects the accuracy, and potentially the reliability of conclusions drawn from\nnumerical studies based on such formulations. In the first part of this thesis,\nwe expand our understanding of the hyperbolicity and well-posedness of\nBondi-like free evolution systems. We show that several prototype Bondi-like\nformulations are only weakly hyperbolic and examine the root cause of this\nresult. Consequently, the characteristic initial (boundary) value problem of\ngeneral relativity in these gauges is rendered ill-posed in the simplest norms\none would like to employ. We discuss the implications of this result in\naccurate gravitational waveform modeling methods and work towards the\nconstruction of alternative norms that might be more appropriate. We also\npresent numerical tests that demonstrate weak hyperbolicity in practice and\nhighlight important features to perform them effectively. In the second part,\nwe turn our attention to applications of these formulations to the qualitative\nbehavior of strongly coupled systems via holography.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:41:19 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Giannakopoulos","Thanasis",""]]}
+{"id":"2308.16002","submitter":"Christoph Borgers","authors":"Christoph B\\\"orgers and Samer Nour Eddine","title":"Variations on the two-child problem","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.HO","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" Mr. Smith has two children. Given that at least one of them is a boy, how\nlikely is it that Mr. Smith has two boys? It's a very standard puzzle in\nelementary books on probability theory. Whoever asks you this question hopes\nthat you will answer \"$\\frac{1}{2}$\", in which case they can say triumphantly\n\"Oh no, the answer is $\\frac{1}{3}$\". This is called the two-child puzzle. Some\nauthors have discussed a striking variation, which we'll call the Adam puzzle.\nAgain, Mr. Smith has two children. Given that one of them is a boy named Adam,\nhow likely is it that Mr. Smith has two boys? Astonishingly, now the answer is\n$\\frac{1}{2}$, at least approximately. (The exact answer depends a bit on\nprecise assumptions.) We give pictorial explanations of both puzzles. We then\npoint out that the answers usually given rely on a tacit assumption about how\nthe information that one of Mr. Smith's two children is a boy, or one of them\nis a boy named Adam, is obtained. We give examples showing that the answers may\nbe different with different assumptions. We conclude with a discussion of why\nthe Adam puzzle is so confusing to most people.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:45:46 GMT"}],"update_date":"2023-08-31","authors_parsed":[["B\u00f6rgers","Christoph",""],["Eddine","Samer Nour",""]]}
+{"id":"2308.16003","submitter":"David Marsh","authors":"David J. E. Marsh","title":"Axions for amateurs","comments":"28 pages, invited review for Contemporary Physics","journal-ref":null,"doi":null,"report-no":"KCL-PH-TH/2023-46","categories":"physics.pop-ph hep-ph physics.ed-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Axions are an increasingly popular topic in theoretical physics, and are\nsparking a global experimental effort. In the following I review the\nmotivations for the existence of axions, the theories underlying them, and the\nmethods to search for them. The target audience is an interested amateur,\nphysics undergraduate, or scientist in another field, and so I use no\ncomplicated mathematics or advanced theoretical topics, and instead use lots of\nanalogies.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:47:19 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Marsh","David J. E.",""]]}
+{"id":"2308.16004","submitter":"Xi Wang X","authors":"Xi Wang, Deming Yuan, Yiguang Hong, Zihao Hu, Lei Wang, Guodong Shi","title":"Riemannian Optimistic Algorithms","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.OC cs.GT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper, we consider Riemannian online convex optimization with dynamic\nregret. First, we propose two novel algorithms, namely the Riemannian Online\nOptimistic Gradient Descent (R-OOGD) and the Riemannian Adaptive Online\nOptimistic Gradient Descent (R-AOOGD), which combine the advantages of\nclassical optimistic algorithms with the rich geometric properties of\nRiemannian manifolds. We analyze the dynamic regrets of the R-OOGD and R-AOOGD\nin terms of regularity of the sequence of cost functions and comparators. Next,\nwe apply the R-OOGD to Riemannian zero-sum games, leading to the Riemannian\nOptimistic Gradient Descent Ascent algorithm (R-OGDA). We analyze the average\niterate and best-iterate of the R-OGDA in seeking Nash equilibrium for a\ntwo-player, zero-sum, g-convex-concave games. We also prove the last-iterate\nconvergence of the R-OGDA for g-strongly convex-strongly concave problems. Our\ntheoretical analysis shows that all proposed algorithms achieve results in\nregret and convergence that match their counterparts in Euclidean spaces.\nFinally, we conduct several experiments to verify our theoretical findings.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:47:21 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Wang","Xi",""],["Yuan","Deming",""],["Hong","Yiguang",""],["Hu","Zihao",""],["Wang","Lei",""],["Shi","Guodong",""]]}
+{"id":"2308.16005","submitter":"Cai Zhang","authors":"Mingrui Shi and Haozhen Situ and Cai Zhang","title":"Hybrid Quantum Neural Network Structures for Image Multi-classification","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Image classification is a fundamental computer vision problem, and neural\nnetworks offer efficient solutions. With advancing quantum technology, quantum\nneural networks have gained attention. However, they work only for\nlow-dimensional data and demand dimensionality reduction and quantum encoding.\nTwo recent image classification methods have emerged: one employs PCA\ndimensionality reduction and angle encoding, the other integrates QNNs into\nCNNs to boost performance. Despite numerous algorithms, comparing PCA reduction\nwith angle encoding against the latter remains unclear. This study explores\nthese algorithms' performance in multi-class image classification and proposes\nan optimized hybrid quantum neural network suitable for the current\nenvironment. Investigating PCA-based quantum algorithms unveils a barren\nplateau issue for QNNs as categories increase, unsuitable for multi-class in\nthe hybrid setup. Simultaneously, the combined CNN-QNN model partly overcomes\nQNN's multi-class training challenges but lags in accuracy to superior\ntraditional CNN models. Additionally, this work explores transfer learning in\nthe hybrid quantum neural network model. In conclusion, quantum neural networks\nshow promise but require further research and optimization, facing challenges\nahead.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:48:05 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Shi","Mingrui",""],["Situ","Haozhen",""],["Zhang","Cai",""]]}
+{"id":"2308.16006","submitter":"Simone Zanotto","authors":"Alessandro Pitanti, Gaia Da Prato, Giorgio Biasiol, Alessandro\n Tredicucci, Simone Zanotto","title":"Gigahertz modulation of a fully dielectric nonlocal metasurface","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.optics","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Nonlocal metasurfaces are currently emerging as advanced tools for the\nmanipulation of electromagnetic radiation, going beyond the widely explored\nHuygens metasurface concept. Nonetheless, the lack of an unified approach for\ntheir fast and efficient tunability still represents a serious challenge to\novercome. In this article we report on gigahertz modulation of a dielectric\nslab-based, nonlocal (i.e. angle-dispersive) metasurface, whose operation\nrelies on the optomechanical coupling with a mechanical wave excited\npiezoelectrically by a transducer integrated on the same chip. Importantly, the\nmetasurface region is free from any conductive material, thus eliminating\noptical losses, and making our device of potential interest for delicate\nenvironments such as high-power apparatuses or quantum optical systems.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:49:22 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Pitanti","Alessandro",""],["Da Prato","Gaia",""],["Biasiol","Giorgio",""],["Tredicucci","Alessandro",""],["Zanotto","Simone",""]]}
+{"id":"2308.16007","submitter":"Miguel Angel Martin Contreras Dr.","authors":"Miguel Angel Martin Contreras and Alfredo Vega and Saulo Diles","title":"Isospectrality and configurational entropy as testing tools for\n bottom-up AdS/QCD","comments":"14 pages, 3 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph hep-th","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" This work discusses the connection between isospectrality and configurational\nentropy in holographic bottom-up models. We analyze the effect of\nmonoparametric isospectral transformation in holographic decay constants and\nconfigurational entropy for a set of softwall-like models at zero temperature.\nWe conclude that the isospectral parameter $\\lambda$ defines a window of\npossible holographic models suitable to describe spectroscopy.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:52:57 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Contreras","Miguel Angel Martin",""],["Vega","Alfredo",""],["Diles","Saulo",""]]}
+{"id":"2308.16008","submitter":"Xu Han","authors":"Xu Han, Xianda Chen, Meixin Zhu, Pinlong Cai, Jianshan Zhou, Xiaowen\n Chu","title":"EnsembleFollower: A Hybrid Car-Following Framework Based On\n Reinforcement Learning and Hierarchical Planning","comments":"12 pages, 10 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.RO cs.AI cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Car-following models have made significant contributions to our understanding\nof longitudinal driving behavior. However, they often exhibit limited accuracy\nand flexibility, as they cannot fully capture the complexity inherent in\ncar-following processes, or may falter in unseen scenarios due to their\nreliance on confined driving skills present in training data. It is worth\nnoting that each car-following model possesses its own strengths and weaknesses\ndepending on specific driving scenarios. Therefore, we propose\nEnsembleFollower, a hierarchical planning framework for achieving advanced\nhuman-like car-following. The EnsembleFollower framework involves a high-level\nReinforcement Learning-based agent responsible for judiciously managing\nmultiple low-level car-following models according to the current state, either\nby selecting an appropriate low-level model to perform an action or by\nallocating different weights across all low-level components. Moreover, we\npropose a jerk-constrained kinematic model for more convincing car-following\nsimulations. We evaluate the proposed method based on real-world driving data\nfrom the HighD dataset. The experimental results illustrate that\nEnsembleFollower yields improved accuracy of human-like behavior and achieves\neffectiveness in combining hybrid models, demonstrating that our proposed\nframework can handle diverse car-following conditions by leveraging the\nstrengths of various low-level models.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:55:02 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Han","Xu",""],["Chen","Xianda",""],["Zhu","Meixin",""],["Cai","Pinlong",""],["Zhou","Jianshan",""],["Chu","Xiaowen",""]]}
+{"id":"2308.16009","submitter":"Lidia Stocker","authors":"Lidia Stocker and Oded Zilberberg","title":"Coherent exchange-coupled nonlocal Kondo impurities","comments":"5 pages, 3 figures, comments are welcome","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.str-el cond-mat.mes-hall physics.comp-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Quantum dots exhibit a variety of strongly correlated effects, e.g., when\ntuned to emulate localized magnetic impurities that form a Kondo singlet with\ntheir surrounding environment. Interestingly, in double-dots setups, the\nmagnetic impurities couple to each other by direct\nRuderman-Kittel-Kasuya-Yosida (RKKY) interaction, which wins over the Kondo\nphysics. In this work, we investigate a double-dot device where the dots are\ncoupled via off-resonant ballistic whispering gallery modes, dubbed electronic\ncavity modes. Within this cavity-double-dot system, we study, using variational\nmatrix product state techniques, the competition between Kondo formation and\nthe coherent RKKY-like interaction that the cavity facilitates. Specifically,\nwe find that (i) Kondo can win and form on each dot individually, or (ii) the\ncavity can win and mediate between the two dots either a singlet or a novel\nnonlocal Kondo-like effect phase, which we call \"cat Kondo\". We systematically\nstudy the quantum phase transitions between the different many-body states. Our\ndiscoveries lay the foundation for the experimental observation of\nunconventional nonlocal magnetic impurities.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:56:17 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Stocker","Lidia",""],["Zilberberg","Oded",""]]}
+{"id":"2308.16010","submitter":"Alessandra Costantini","authors":"Alessandra Costantini, Edward F. Price III, Matthew Weaver","title":"On Rees algebras of linearly presented ideals and modules","comments":"15 pages, comments welcome!","journal-ref":null,"doi":null,"report-no":null,"categories":"math.AC math.AG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Let $I$ be a perfect ideal of height two in $R=k[x_1, \\ldots, x_d]$ and let\n$\\varphi$ denote its Hilbert-Burch matrix. When $\\varphi$ has linear entries,\nthe algebraic structure of the Rees algebra $\\mathcal{R}(I)$ is well-understood\nunder the additional assumption that the minimal number of generators of $I$ is\nbounded locally up to codimension $d-1$. In the first part of this article, we\ndetermine the defining ideal of $\\mathcal{R}(I)$ under the weaker assumption\nthat such condition holds only up to codimension $d-2$, generalizing previous\nwork of P.~H.~L.~Nguyen. In the second part, we use generic Bourbaki ideals to\nextend our findings to Rees algebras of linearly presented modules of\nprojective dimension one.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 12:58:38 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Costantini","Alessandra",""],["Price","Edward F.","III"],["Weaver","Matthew",""]]}
+{"id":"2308.16011","submitter":"Jacob B Khurgin","authors":"Jacob B Khurgin","title":"Energy and Power requirements for alteration of the refractive index","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.optics","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The ability to manipulate the refractive index is a fundamental principle\nunderlying numerous photonic devices. Various techniques exist to modify the\nrefractive index across diverse materials, making performance comparison far\nfrom straightforward. In evaluating these methods, power consumption emerges as\na key performance characteristic, alongside bandwidth and footprint. Here I\nundertake a comprehensive comparison of the energy and power requirements for\nthe most well-known index change schemes. The findings reveal that while the\nenergy per volume for index change remains within the same order of magnitude\nacross different techniques and materials, the power consumption required to\nachieve switching, 100% modulation, or 100% frequency conversion can differ\nsignificantly, spanning many orders of magnitude. As it turns out, the material\nused has less influence on power reduction than the specific resonant or\ntraveling wave scheme employed to enhance the interaction time between light\nand matter. Though this work is not intended to serve as a design guide, it\ndoes establish the limitations and trade-offs involved in index modulation,\nthus providing valuable insights for photonics practitioners.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:09:22 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Khurgin","Jacob B",""]]}
+{"id":"2308.16012","submitter":"Hans Munthe-Kaas","authors":"Hans Munthe-Kaas","title":"Geometric integration on symmetric spaces","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.NA cs.NA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We consider geometric numerical integration algorithms for differential\nequations evolving on symmetric spaces. The integrators are constructed from\ncanonical operations on the symmetric space, its Lie triple system (LTS), and\nthe exponential from the LTS to the symmetric space. Examples of symmetric\nspaces are n-spheres and Grassmann manifolds, the space of positive definite\nsymmetric matrices, Lie groups with a symmetric product, and elliptic and\nhyperbolic spaces with constant sectional curvatures. We illustrate the\nabstract algorithm with concrete examples. In particular for the n-sphere and\nthe n-dimensional hyperbolic space the resulting algorithms are very simple and\ncost only O(n) operations per step.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:13:14 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Munthe-Kaas","Hans",""]]}
+{"id":"2308.16013","submitter":"William Barford Professor","authors":"William Barford","title":"Singlet Fission in Lycopene H-Aggregates","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.chem-ph cond-mat.str-el","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" A theory of singlet fission (SF) in carotenoid dimers is applied to explain\nthe SF in lycopene H-aggregates observed after high energy photoexcitation. The\nexplanation proposed here is that a high energy, delocalized bright $^1B_u^+$\nstate first relaxes and localizes onto a single lycopene monomer. The\nhigh-energy intramonomer state then undergoes internal conversion to the\n$1^1B_u^-$ state. Once populated, the $1^1B_u^-$ state allows exothermic\nbimolecular singlet fission, while its internal conversion to the $2^1A_g^-$\nstate is symmetry forbidden. The simulation of SF predicts that the\nintramonomer triplet-pair state undergoes complete population transfer to the\nintermonomer singlet triplet-pair state within 100 ps. ZFS interactions then\nbegin to partially populate the intermonomer quintet triplet-pair state up to\nca. 2 ns, after which hyperfine interactions thermally equilibrate the\ntriplet-pair states, thus forming free, single triplets within ca. 0.1 $\\mu$s.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:14:40 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Barford","William",""]]}
+{"id":"2308.16014","submitter":"Anbhu Swaminathan","authors":"Vikash Kumar and A. Swaminathan","title":"Lubinsky inequality associated with certain measures in the\n Marcell\\'{a}n class","comments":"15 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this article, an attempt is made to examine the Lubinsky inequality within\na specific pair of measures by relaxing the relation between the measures given\nin the original hypothesis. Specifically, the bound for the Lubinsky inequality\nis derived in relation to the Verblunsky coefficients, along with parameters\nobtained from the Marcell\\'{a}n class. Furthermore, the representation of\northogonal polynomials using the polynomials derived from the Marcell\\'{a}n\nclass is obtained. The chain sequence in terms of Verblunsky coefficients\ncorresponding to the measures from the Marcell\\'{a}n class is obtained.\nAdditionally, estimates for the norms of orthogonal polynomials concerning\nmeasures within the Marcell\\'{a}n class are provided.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:15:31 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kumar","Vikash",""],["Swaminathan","A.",""]]}
+{"id":"2308.16015","submitter":"Ludovico Nista","authors":"Ludovico Nista, Christoph David Karl Schumann, Mathis Bode, Temistocle\n Grenga, Jonathan F. MacArt, Antonio Attili, and Heinz Pitsch","title":"Influence of adversarial training on super-resolution turbulence models","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.flu-dyn","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Supervised super-resolution deep convolutional neural networks (CNNs) have\ngained significant attention for large eddy simulation subfilter-scale (SFS)\nmodeling due to their ability to reconstruct statistically meaningful flow\nfields on fine meshes. Despite their popularity, CNNs lack the ability to\naccurately reconstruct high-frequency features and generalization performance\non out-of-sample flows. Generative adversarial networks (GANs) are a potential\nalternative, allowing for both semi-supervised and fully unsupervised training,\nthough they have not been thoroughly investigated as turbulence closures, and a\ncomprehensive understanding of the discriminator's role has not been developed.\nThis study assesses the effectiveness of GANs for a priori SFS stress modeling\nin forced homogeneous isotropic turbulence. It is found that GAN-based\narchitectures outperform supervised CNN models for SFS reconstruction for\nin-sample cases. The reconstruction accuracy of both models decreases for\nout-of-sample data, though the GAN discriminator applied as a \"feature\nextractor\" narrows the model's solution space and enhances the generator's\nout-of-sample robustness. The extrapolation ability of the GAN-based model for\nhigher-Reynolds-number flows is also demonstrated. This highlights the\neffectiveness of the GAN discriminator in optimizing robust and accurate SFS\nmodels for out-of-sample flows. Based on these findings, training with a\ndiscriminator is recommended before integrating super-resolution CNN closures\ninto numerical solvers.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:17:49 GMT"},{"version":"v2","created":"Thu, 31 Aug 2023 06:05:31 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Nista","Ludovico",""],["Schumann","Christoph David Karl",""],["Bode","Mathis",""],["Grenga","Temistocle",""],["MacArt","Jonathan F.",""],["Attili","Antonio",""],["Pitsch","Heinz",""]]}
+{"id":"2308.16016","submitter":"Alexander Mozeika","authors":"Mohammad M. Jalalzai, Alexander Mozeika, Marcin P. Pawlowsk, Ganesh\n Narayanaswamy","title":"Carnot: A highly Scalable and Responsive BFT Consensus protocol","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DC math.PR","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" We present Carnot, a leader-based Byzantine Fault Tolerant (BFT) consensus\nprotocol that is responsive and operates under the partially synchronous model.\nResponsive BFT consensus protocols exhibit wire-speed operation and deliver\ninstantaneous finality, thereby addressing a fundamental need in distributed\nsystems. A key challenge in scaling these protocols has been the computational\ncomplexity associated with authenticator verification. We demonstrate that\nCarnot effectively addresses this bottleneck by adeptly streamlining the\nverification and aggregation of O(log(N)) authenticators per node. This notable\nadvancement marks a substantial improvement over the prevailing O(N)\nstate-of-the-art approaches. Leveraging this inherent property, Carnot\ndemonstrates its capacity to seamlessly scale to networks comprising tens to\nhundreds of thousands of nodes. We envision Carnot as a critical stride towards\nbridging the gap between classical BFT consensus mechanisms and blockchain\ntechnology.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:20:18 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Jalalzai","Mohammad M.",""],["Mozeika","Alexander",""],["Pawlowsk","Marcin P.",""],["Narayanaswamy","Ganesh",""]]}
+{"id":"2308.16017","submitter":"Brian Zhang","authors":"Luca Carminati, Brian Hu Zhang, Gabriele Farina, Nicola Gatti, Tuomas\n Sandholm","title":"Hidden-Role Games: Equilibrium Concepts and Computation","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.GT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper, we study the class of games known as hidden-role games in\nwhich players get privately assigned a team and are faced with the challenge of\nrecognizing and cooperating with teammates. This model includes both popular\nrecreational games such as the Mafia/Werewolf family and The Resistance\n(Avalon) and real-world security settings, where a distributed system wants to\noperate while some of its nodes are controlled by adversaries. There has been\nlittle to no formal mathematical grounding of such settings in the literature,\nand it is not even immediately clear what the right solution concept is. In\nparticular, the suitable notion of equilibrium depends on communication\navailable to the players (whether players can communicate, whether they can\ncommunicate in private, and whether they can observe who is communicating), and\ndefining it turns out to be a nontrivial task with several surprising\nconsequences. We show that in certain cases, including the above recreational\ngames, near-optimal equilibria can be computed efficiently. In most other\ncases, we show that computing an optimal equilibrium is either NP-hard or\ncoNP-hard. Lastly, we experimentally validate our approach by computing\nnearly-exact equilibria for complete Avalon instances up to 6 players whose\nsize in terms of number of information sets is larger than $10^{56}$.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:20:46 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Carminati","Luca",""],["Zhang","Brian Hu",""],["Farina","Gabriele",""],["Gatti","Nicola",""],["Sandholm","Tuomas",""]]}
+{"id":"2308.16018","submitter":"Shaojie Zhang","authors":"Shaojie Zhang, Jianqin Yin, Yonghao Dang and Jiajun Fu","title":"Topology-aware MLP for Skeleton-based Action Recognition","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Graph convolution networks (GCNs) have achieved remarkable performance in\nskeleton-based action recognition. However, existing previous GCN-based methods\nhave relied excessively on elaborate human body priors and constructed complex\nfeature aggregation mechanisms, which limits the generalizability of networks.\nTo solve these problems, we propose a novel Spatial Topology Gating Unit\n(STGU), which is an MLP-based variant without extra priors, to capture the\nco-occurrence topology features that encode the spatial dependency across all\njoints. In STGU, to model the sample-specific and completely independent\npoint-wise topology attention, a new gate-based feature interaction mechanism\nis introduced to activate the features point-to-point by the attention map\ngenerated from the input. Based on the STGU, in this work, we propose the first\ntopology-aware MLP-based model, Ta-MLP, for skeleton-based action recognition.\nIn comparison with existing previous methods on three large-scale datasets,\nTa-MLP achieves competitive performance. In addition, Ta-MLP reduces the\nparameters by up to 62.5% with favorable results. Compared with previous\nstate-of-the-art (SOAT) approaches, Ta-MLP pushes the frontier of real-time\naction recognition. The code will be available at\nhttps://github.com/BUPTSJZhang/Ta-MLP.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:20:54 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Zhang","Shaojie",""],["Yin","Jianqin",""],["Dang","Yonghao",""],["Fu","Jiajun",""]]}
+{"id":"2308.16019","submitter":"Joseph Davis","authors":"Samantha M. Webster, Mira B. May, Barrett M. Powell, Joseph H. Davis","title":"Imaging structurally dynamic ribosomes with cryogenic electron\n microscopy","comments":"15 pages, 6 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"q-bio.BM","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Throughout the history of electron microscopy, ribosomes have served as an\nideal subject for imaging and technological development, which in turn has\ndriven our understanding of ribosomal biology. Here, we provide a historical\nperspective at the intersection of electron microscopy technology development\nand ribosome biology and reflect on how this technique has shed light on each\nstage of the life cycle of this dynamic macromolecular machine. With an\nemphasis on prokaryotic systems, we specifically describe how pairing cryo-EM\nwith clever experimental design, time-resolved techniques, and next-generation\nheterogeneous structural analysis has afforded insights into the modular nature\nof assembly, the roles of the many transient biogenesis and translation\nco-factors, and the subtle variations in structure and function between strains\nand species. The work concludes with a prospective outlook on the field,\nhighlighting the pivotal role cryogenic electron tomography is playing in\nadding cellular context to our understanding of ribosomal life cycles, and\nnoting how this exciting technology promises to bridge the gap between cellular\nand structural biology.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:21:11 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Webster","Samantha M.",""],["May","Mira B.",""],["Powell","Barrett M.",""],["Davis","Joseph H.",""]]}
+{"id":"2308.16020","submitter":"Gregor Diatzko","authors":"Sabine Cornelsen and Gregor Diatzko","title":"Decomposing Triangulations into 4-Connected Components","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DS cs.CG","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" A connected graph is 4-connected if it contains at least five vertices and\nremoving any three of them does not disconnect it. A frequent preprocessing\nstep in graph drawing is to decompose a plane graph into its 4-connected\ncomponents and to determine their nesting structure. A linear-time algorithm\nfor this problem was already proposed by Kant. However, using common graph data\nstructures, we found the subroutine dealing with triangulated graphs difficult\nto implement in such a way that it actually runs in linear time. As a drop-in\nreplacement, we provide a different, easy-to-implement linear-time algorithm\nthat decomposes a triangulated graph into its 4-connected components and\ncomputes the respective nesting structure. The algorithm is based on\ndepth-first search.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:21:36 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Cornelsen","Sabine",""],["Diatzko","Gregor",""]]}
+{"id":"2308.16021","submitter":"Xiang Li","authors":"Yi Meng, Xiang Li, Zhiyong Wu, Tingtian Li, Zixun Sun, Xinyu Xiao, Chi\n Sun, Hui Zhan, Helen Meng","title":"CALM: Contrastive Cross-modal Speaking Style Modeling for Expressive\n Text-to-Speech Synthesis","comments":"Accepted by InterSpeech 2022","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SD eess.AS","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" To further improve the speaking styles of synthesized speeches, current\ntext-to-speech (TTS) synthesis systems commonly employ reference speeches to\nstylize their outputs instead of just the input texts. These reference speeches\nare obtained by manual selection which is resource-consuming, or selected by\nsemantic features. However, semantic features contain not only style-related\ninformation, but also style irrelevant information. The information irrelevant\nto speaking style in the text could interfere the reference audio selection and\nresult in improper speaking styles. To improve the reference selection, we\npropose Contrastive Acoustic-Linguistic Module (CALM) to extract the\nStyle-related Text Feature (STF) from the text. CALM optimizes the correlation\nbetween the speaking style embedding and the extracted STF with contrastive\nlearning. Thus, a certain number of the most appropriate reference speeches for\nthe input text are selected by retrieving the speeches with the top STF\nsimilarities. Then the style embeddings are weighted summarized according to\ntheir STF similarities and used to stylize the synthesized speech of TTS.\nExperiment results demonstrate the effectiveness of our proposed approach, with\nboth objective evaluations and subjective evaluations on the speaking styles of\nthe synthesized speeches outperform a baseline approach with\nsemantic-feature-based reference selection.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:21:51 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Meng","Yi",""],["Li","Xiang",""],["Wu","Zhiyong",""],["Li","Tingtian",""],["Sun","Zixun",""],["Xiao","Xinyu",""],["Sun","Chi",""],["Zhan","Hui",""],["Meng","Helen",""]]}
+{"id":"2308.16022","submitter":"Louis Rouillard","authors":"Louis Rouillard, Alexandre Le Bris, Thomas Moreau, Demian Wassermann","title":"PAVI: Plate-Amortized Variational Inference","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"stat.ML cs.LG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Given observed data and a probabilistic generative model, Bayesian inference\nsearches for the distribution of the model's parameters that could have yielded\nthe data. Inference is challenging for large population studies where millions\nof measurements are performed over a cohort of hundreds of subjects, resulting\nin a massive parameter space. This large cardinality renders off-the-shelf\nVariational Inference (VI) computationally impractical.\n In this work, we design structured VI families that efficiently tackle large\npopulation studies. Our main idea is to share the parameterization and learning\nacross the different i.i.d. variables in a generative model, symbolized by the\nmodel's \\textit{plates}. We name this concept \\textit{plate amortization}.\nContrary to off-the-shelf stochastic VI, which slows down inference, plate\namortization results in orders of magnitude faster to train variational\ndistributions.\n Applied to large-scale hierarchical problems, PAVI yields expressive,\nparsimoniously parameterized VI with an affordable training time. This faster\nconvergence effectively unlocks inference in those large regimes. We illustrate\nthe practical utility of PAVI through a challenging Neuroimaging example\nfeaturing 400 million latent parameters, demonstrating a significant step\ntowards scalable and expressive Variational Inference.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:22:20 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Rouillard","Louis",""],["Bris","Alexandre Le",""],["Moreau","Thomas",""],["Wassermann","Demian",""]]}
+{"id":"2308.16023","submitter":"Juliana Caspers","authors":"Karthika Krishna Kumar, Juliana Caspers, F\\'elix Ginot, Matthias\n Kr\\\"uger, Clemens Bechinger","title":"Memory-induced alignment of colloidal dumbbells","comments":"10 pages, 6 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.soft cond-mat.stat-mech","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" When a colloidal probe is forced through a viscoelastic fluid which is\ncharacterized by a long stress-relaxation time, the fluid is excited out of\nequilibrium. This is leading to a number of interesting effects including a\nnon-trivial recoil of the probe when the driving force is removed. Here, we\nexperimentally and theoretically investigate the transient recoil dynamics of\nnon-spherical particles, i.e., colloidal dumbbells. In addition to a\ntranslational recoil of the dumbbells, we also find a pronounced angular\nreorientation which results from the relaxation of the surrounding fluid. Our\nfindings are in good agreement with a Langevin description based on the\nsymmetries of a director (dumbbell) as well as a microscopic bath-rod model.\nRemarkably, we find a frustrated state with amplified fluctuations when the\ndumbbell is oriented perpendicular to the direction of driving. Our results\ndemonstrate the complex behavior of non-spherical objects within a relaxing\nenvironment which are of immediate interest for the motion of externally but\nalso self-driven asymmetric objects in viscoelastic fluids.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:23:36 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Kumar","Karthika Krishna",""],["Caspers","Juliana",""],["Ginot","F\u00e9lix",""],["Kr\u00fcger","Matthias",""],["Bechinger","Clemens",""]]}
+{"id":"2308.16024","submitter":"David Knoble","authors":"D. Ben Knoble and Bogdan Popa","title":"Functional Shell and Reusable Components for Easy GUIs","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SE","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" Some object-oriented GUI toolkits tangle state management with rendering.\nFunctional shells and observable toolkits like GUI Easy simplify and promote\nthe creation of reusable views by analogy to functional programming. We have\nsuccessfully used GUI Easy on small and large GUI projects. We report on our\nexperience constructing and using GUI Easy and derive from that experience\nseveral architectural patterns and principles for building functional programs\nout of imperative systems.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:27:25 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Knoble","D. Ben",""],["Popa","Bogdan",""]]}
+{"id":"2308.16025","submitter":"Rudy Arthur","authors":"Rudy Arthur","title":"A Critical Analysis of the What3Words Geocoding Algorithm","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.HC cs.CY","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" What3Words is a geocoding application that uses triples of words instead of\nalphanumeric coordinates to identify locations. What3Words has grown rapidly in\npopularity over the past few years and is used in logistical applications\nworldwide, including by emergency services. What3Words has also attracted\ncriticism for being less reliable than claimed, in particular that the chance\nof confusing one address with another is high. This paper investigates these\nclaims and shows that the What3Words algorithm for assigning addresses to grid\nboxes creates many pairs of confusable addresses, some of which are quite close\ntogether. The implications of this for the use of What3Words in critical or\nemergency situations is discussed.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:30:57 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Arthur","Rudy",""]]}
+{"id":"2308.16026","submitter":"Ludmila Petrova L.I.","authors":"L.I. Petrova","title":"Internal connection between the field theory equations. Fundamentals of\n the field theory","comments":"11 pages, XXIII International Scientific Conference \"Physical\n Interpretations of Relativity Theory , Moscow, July 3rd to 6th, 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"math.GM","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" It is shown that there is a correspondence between field theory equations\nsuch as the Dirac, Shr\\H{o}dinger, Maxwell, Einstein equations and closed\nexterior forms of a certain degree. In this case, the Dirac and Shr\\H{o}dinger\nequations for the wave function correspond to closed exterior forms of zero\ndegree. The Shr\\H{o}dinger equation for the state functional corresponds to\nclosed exterior forms of the first degree. The Maxwell's equations based on\nexterior forms of second degree. Einstein's equation for the gravitational\nfield consists of covariant tensors, which correspond to closed exterior forms\nof the second degree. However, the covariant tensors of the Einstein equation\nare derived from the covariant tensors, which correspond to closed exterior\nforms of third degree. Such a correspondence between the field theory equations\nand closed exterior forms of a certain degree reveals the internal connection\nbetween the field theory equations. At the same time, it was shown that closed\nexterior forms, on which the field theory equations for physical fields are\nbased, are associated with the equations of mathematical physics for material\nmedia, such as thermodynamic, gas-dynamic, electromagnetic, cosmological\nequations, etc.\n This indicates the connection between the field theory equations and the\nmathematical physics equations and reveals the foundations of field theory.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:32:26 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Petrova","L. I.",""]]}
+{"id":"2308.16027","submitter":"Sait Umar","authors":"M. Arik, S. Ayik, O. Yilmaz, and A. S. Umar","title":"Description of multinucleon transfer mechanism for ${}^{48}\n \\mathrm{Ca}+{ }^{244} \\mathrm{Pu}$ and ${ }^{86} \\mathrm{Kr}+{}^{198}\n \\mathrm{Pt}$ reactions in quantal transport approach","comments":"10 pages, 6 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"nucl-th","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This work aims to show that the quantal diffusion approach based on the\nstochastic mean field (SMF) theory is capable of explaining the reaction\ndynamics observed in MNT reactions. Primary product mass distributions in\n$^{48}$Ca+$^{244}$Pu reaction at E$_\\text{{c.m.}}= $ 203.2 MeV and\n$^{86}$Kr+$^{198}$Pt reaction at E$_\\text{{c.m.}} = $ 324.2 MeV are calculated\nand compared with the available experimental data.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:35:35 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Arik","M.",""],["Ayik","S.",""],["Yilmaz","O.",""],["Umar","A. S.",""]]}
+{"id":"2308.16028","submitter":"Zhigui Lin","authors":"Haiyan Xu, Zhigui Lin and Huaiping Zhu","title":"On an age-structured juvenile-adult model with harvesting pulse in\n moving and heterogeneous environment","comments":"35 pages, 25 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"math.AP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This paper concerns an age-structured juvenile-adult model with harvesting\npulse and moving boundaries in a heterogeneous environment, in which the moving\nboundaries describe the natural expanding front of species and human periodic\npulse intervention is carried on the adults. The principal eigenvalue is\nfirstly defined and its properties involving the intensity of harvesting and\nlength of habitat sizes are analysed. Then the criteria to determine whether\nthe species spread or vanish is discussed, and some relevant sufficient\nconditions characterized by pulse are established. Our results reveal that the\nco-extinction or coexistence of species is influenced by internal expanding\ncapacities from species itself and external harvesting pulse from human\nintervention, in which the intensity and timing of harvesting play key roles.\nThe final numerical approximations indicate that the larger the harvesting rate\nand the shorter the harvesting period, the worse the survival of all\nindividuals due to the cooperation among juveniles and adults, and such\nharvesting pulse can even alter the situation of species, from persistence to\nextinction. In addition, expanding capacities also affect or alter the outcomes\nof spreading-vanishing\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:36:05 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Xu","Haiyan",""],["Lin","Zhigui",""],["Zhu","Huaiping",""]]}
+{"id":"2308.16029","submitter":"Matthew Barthet","authors":"Matthew Barthet, Chintan Trivedi, Kosmas Pinitas, Emmanouil Xylakis,\n Konstantinos Makantasis, Antonios Liapis, Georgios N. Yannakakis","title":"Knowing Your Annotator: Rapidly Testing the Reliability of Affect\n Annotation","comments":"8 pages, 5 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.HC","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The laborious and costly nature of affect annotation is a key detrimental\nfactor for obtaining large scale corpora with valid and reliable affect labels.\nMotivated by the lack of tools that can effectively determine an annotator's\nreliability, this paper proposes general quality assurance (QA) tests for\nreal-time continuous annotation tasks. Assuming that the annotation tasks rely\non stimuli with audiovisual components, such as videos, we propose and evaluate\ntwo QA tests: a visual and an auditory QA test. We validate the QA tool across\n20 annotators that are asked to go through the test followed by a lengthy task\nof annotating the engagement of gameplay videos. Our findings suggest that the\nproposed QA tool reveals, unsurprisingly, that trained annotators are more\nreliable than the best of untrained crowdworkers we could employ. Importantly,\nthe QA tool introduced can predict effectively the reliability of an affect\nannotator with 80% accuracy, thereby, saving on resources, effort and cost, and\nmaximizing the reliability of labels solicited in affective corpora. The\nintroduced QA tool is available and accessible through the PAGAN annotation\nplatform.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:37:30 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Barthet","Matthew",""],["Trivedi","Chintan",""],["Pinitas","Kosmas",""],["Xylakis","Emmanouil",""],["Makantasis","Konstantinos",""],["Liapis","Antonios",""],["Yannakakis","Georgios N.",""]]}
+{"id":"2308.16030","submitter":"Jos\\'e Siqueira","authors":"Jos\\'e Siqueira","title":"Nonstandard proof methods in toposes","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.CT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We determine sufficient structure for an elementary topos to emulate E.\nNelson's Internal Set Theory in its internal language, and show that any topos\nsatisying the internal axiom of choice occurs as a universe of standard objects\nand maps. This development allows one to employ the proof methods of\nnonstandard analysis (transfer, standardisation, and idealisation) in new\nenvironments such as toposes of $G$-sets and Boolean \\'entendues.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:41:09 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Siqueira","Jos\u00e9",""]]}
+{"id":"2308.16031","submitter":"Bowen Gu","authors":"Bowen Gu, Dong Li, Haiyang Ding, Gongpu Wang and Chintha Tellambura","title":"Breaking the Interference and Fading Gridlock in Backscatter\n Communications: State-of-the-Art, Design Challenges, and Future Directions","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IT math.IT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" With the rapid advancement of the Internet of Things (IoT) and mobile\ncommunication technologies, a multitude of devices are becoming interconnected,\nmarking the onset of an era where all things are connected. While this growth\nopens opportunities for novel products and applications, it also leads to\nincreased energy demand and battery reliance in IoT devices, creating a\nsignificant bottleneck that hinders sustainable progress. Traditional energy\nharvesting (EH) techniques, although promising, face limitations such as\ninsufficient efficiency, high costs, and practical constraints that impede\nwidespread adoption. Backscatter communication (BackCom), a low-power and\npassive method, emerges as a promising solution to these challenges, directly\naddressing stranded energy impasse by reducing manufacturing costs and energy\nconsumption in IoT devices. We perform an in-depth analysis of three primary\nBackCom architectures: Monostatic, Bistatic, and Ambient BackComs. In our\nexploration, we identify fundamental challenges, such as complex interference\nenvironments (including the direct-link interference and the mutual\ninterference among tags) and double-path fading, which contribute to suboptimal\nperformance in BackCom systems. This review aims to furnish a comprehensive\nexamination of existing solutions designed to combat complex interference\nenvironments and double-path fading, offering insightful analysis and\ncomparison to select effective strategies to address these challenges. We also\ndelve into emerging trends and challenges in BackCom, forecasting potential\npaths for technological advancement and providing insights into navigating the\nintricate landscape of future communication needs. Our work provides\nresearchers and engineers with a clear and comprehensive perspective, enabling\nthem to better understand and creatively tackle the ongoing challenges in\nBackCom systems.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:42:04 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Gu","Bowen",""],["Li","Dong",""],["Ding","Haiyang",""],["Wang","Gongpu",""],["Tellambura","Chintha",""]]}
+{"id":"2308.16032","submitter":"Youngrong Lim","authors":"Youngrong Lim, Minki Hhan, Hyukjoon Kwon","title":"Non-destructive Local Discrimination of Entangled Quantum States","comments":"6+3 pages, 2 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We demonstrate a substantial gap between local and nonlocal strategies in a\nquantum state discrimination task under a non-destructiveness condition. The\ncondition imposes additional constraints to conventional state discrimination\nthat the initial state should be returned without disturbance. For a set of\nmaximally entangled states, the success probability of the proposed task using\nlocal operations and classical communications is completely suppressed; it\ncannot beat random guessing. We also show that a local strategy that\nefficiently exploits pre-shared entanglement for this task can be essentially\ndifferent from the conventional approaches. We construct a non-destructive and\nadaptive strategy to achieve perfect discrimination of maximally entangled\nstates which has a strictly lower entanglement cost than the best-known method\nbased on teleportation. Our approach can be generalized to multipartite\nscenarios, offering an application in entanglement certification of a quantum\nnetwork.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:46:18 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Lim","Youngrong",""],["Hhan","Minki",""],["Kwon","Hyukjoon",""]]}
+{"id":"2308.16033","submitter":"Ameet Gadekar","authors":"Parinya Chalermsook and Ameet Gadekar and Kamyar Khodamoradi and\n Joachim Spoerhase","title":"Independent set in $k$-Claw-Free Graphs: Conditional $\\chi$-boundedness\n and the Power of LP/SDP Relaxations","comments":"WAOA 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CC","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" This paper studies $k$-claw-free graphs, exploring the connection between an\nextremal combinatorics question and the power of a convex program in\napproximating the maximum-weight independent set in this graph class. For the\nextremal question, we consider the notion, that we call \\textit{conditional\n$\\chi$-boundedness} of a graph: Given a graph $G$ that is assumed to contain an\nindependent set of a certain (constant) size, we are interested in upper\nbounding the chromatic number in terms of the clique number of $G$. This\nquestion, besides being interesting on its own, has algorithmic implications\n(which have been relatively neglected in the literature) on the performance of\nSDP relaxations in estimating the value of maximum-weight independent set.\n For $k=3$, Chudnovsky and Seymour (JCTB 2010) prove that any $3$-claw-free\ngraph $G$ with an independent set of size three must satisfy $\\chi(G) \\leq 2\n\\omega(G)$. Their result implies a factor $2$-estimation algorithm for the\nmaximum weight independent set via an SDP relaxation (providing the first\nnon-trivial result for maximum-weight independent set in such graphs via a\nconvex relaxation). An obvious open question is whether a similar conditional\n$\\chi$-boundedness phenomenon holds for any $k$-claw-free graph. Our main\nresult answers this question negatively. We further present some evidence that\nour construction could be useful in studying more broadly the power of convex\nrelaxations in the context of approximating maximum weight independent set in\n$k$-claw free graphs. In particular, we prove a lower bound on families of\nconvex programs that are stronger than known convex relaxations used\nalgorithmically in this context.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 13:47:25 GMT"}],"update_date":"2023-08-31","authors_parsed":[["Chalermsook","Parinya",""],["Gadekar","Ameet",""],["Khodamoradi","Kamyar",""],["Spoerhase","Joachim",""]]}
+{"id":"2308.16034","submitter":"Sandro Mattarei","authors":"Marina Avitabile and Sandro Mattarei","title":"On some coefficients of the Artin-Hasse series modulo a prime","comments":"12 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.NT","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Let $p$ be an odd prime, and let $\\sum_{n=0}^{\\infty}\na_{n}X^{n}\\in\\mathbb{F}_p[[X]]$ be the reduction modulo $p$ of the Artin-Hasse\nexponential. We obtain a polynomial expression for $a_{kp}$ in terms of those\n$a_{rp}$ with $r 1 mm) were observed to be ejected from masks with limited wear\nafter only a few breathing cycles. Given the widespread use of masks by\nhealthcare workers and the potential future need for mask usage by the general\npopulation during seasonal infectious diseases or new pandemics, developing\nface masks using safe materials for both users and the environment is\nimperative.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 19:44:06 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Prada","Andres F.",""],["Distler","Avram",""],["Cheng","Shyuan",""],["Scott","John W.",""],["Chamorro","Leonardo P.",""],["Subramanian","Ganesh",""],["Verma","Vishal",""],["Turner","Andrew",""]]}
+{"id":"2308.16296","submitter":"Santosh Kumar","authors":"Sunidhi Sen, Himanshu Shekhar, Santosh Kumar","title":"Spectral statistics of interpolating random circulant matrix","comments":"16 pages, 7 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"math-ph math.MP nlin.SI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We consider a versatile matrix model of the form ${\\bf A}+i {\\bf B}$, where\n${\\bf A}$ and ${\\bf B}$ are real random circulant matrices with independent\nbut, in general, non-identically distributed Gaussian entries. For this model,\nwe derive exact result for the joint probability density function and find that\nit is a multivariate Gaussian. Consequently, exact expression for arbitrary\norder marginal density also ensues. It is demonstrated that by adjusting the\naverages and variances of the Gaussian elements of ${\\bf A}$ and ${\\bf B}$, we\ncan interpolate between a remarkably wide range of eigenvalue distributions in\nthe complex plane. In particular, we can examine the crossover between a random\nreal circulant matrix and a random complex circulant matrix. We also extend our\nstudy to include Wigner-like and Wishart-like matrices constructed from our\ngeneral random circulant matrix. To validate our analytical findings, Monte\nCarlo simulations are conducted, which confirm the accuracy of our results.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 19:47:49 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Sen","Sunidhi",""],["Shekhar","Himanshu",""],["Kumar","Santosh",""]]}
+{"id":"2308.16297","submitter":"Arlene Cristina Aguilar","authors":"A. C. Aguilar, M .N. Ferreira, D. Iba\\~nez, J. Papavassiliou","title":"Schwinger displacement of the quark-gluon vertex","comments":"41 pages, 12 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph hep-lat hep-th nucl-th","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The action of the Schwinger mechanism in pure Yang-Mills theories endows\ngluons with an effective mass, and, at the same time, induces a measurable\ndisplacement to the Ward identity satisfied by the three-gluon vertex. In the\npresent work we turn to Quantum Chromodynamics with two light quark flavors,\nand explore the appearance of this characteristic displacement at the level of\nthe quark-gluon vertex. When the Schwinger mechanism is activated, this vertex\nacquires massless poles, whose momentum-dependent residues are determined by a\nset of coupled integral equations. The main effect of these residues is to\ndisplace the Ward identity obeyed by the pole-free part of the vertex, causing\nmodifications to its form factors, and especially the one associated with the\ntree-level tensor. The comparison between the available lattice data for this\nform factor and the Ward identity prediction reveals a marked deviation, which\nis completely compatible with the theoretical expectation for the attendant\nresidue. This analysis corroborates further the self-consistency of this\nmass-generating scenario in the general context of real-world strong\ninteractions.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 19:49:31 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Aguilar","A. C.",""],["Ferreira","M . N.",""],["Iba\u00f1ez","D.",""],["Papavassiliou","J.",""]]}
+{"id":"2308.16298","submitter":"Hal Triedman","authors":"Temilola Adeleye, Skye Berghel, Damien Desfontaines, Michael Hay,\n Isaac Johnson, Cl\\'eo Lemoisson, Ashwin Machanavajjhala, Tom Magerlein,\n Gabriele Modena, David Pujol, Daniel Simmons-Marengo, and Hal Triedman","title":"Publishing Wikipedia usage data with strong privacy guarantees","comments":"11 pages, 10 figures, Theory and Practice of Differential Privacy\n (TPDP) 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" For almost 20 years, the Wikimedia Foundation has been publishing statistics\nabout how many people visited each Wikipedia page on each day. This data helps\nWikipedia editors determine where to focus their efforts to improve the online\nencyclopedia, and enables academic research. In June 2023, the Wikimedia\nFoundation, helped by Tumult Labs, addressed a long-standing request from\nWikipedia editors and academic researchers: it started publishing these\nstatistics with finer granularity, including the country of origin in the daily\ncounts of page views. This new data publication uses differential privacy to\nprovide robust guarantees to people browsing or editing Wikipedia. This paper\ndescribes this data publication: its goals, the process followed from its\ninception to its deployment, the algorithms used to produce the data, and the\noutcomes of the data release.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 19:58:56 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Adeleye","Temilola",""],["Berghel","Skye",""],["Desfontaines","Damien",""],["Hay","Michael",""],["Johnson","Isaac",""],["Lemoisson","Cl\u00e9o",""],["Machanavajjhala","Ashwin",""],["Magerlein","Tom",""],["Modena","Gabriele",""],["Pujol","David",""],["Simmons-Marengo","Daniel",""],["Triedman","Hal",""]]}
+{"id":"2308.16299","submitter":"M. White","authors":"M. White (1), J. Theilacker (1), M. Barba (1) ((1) Fermi National\n Accelerator Laboratory)","title":"Conservation of Helium while Maintaining High System Purity","comments":"2023 Cryogenic Engineering Conference and International Cryogenic\n Materials Conference (CEC/ICMC)","journal-ref":null,"doi":null,"report-no":"FERMILAB-CONF-23-360-TD","categories":"physics.ins-det","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Recent helium shortages and helium price increases have lead to an increased\nemphasis being placed on conserving helium. The need to conserve helium must be\nbalanced with need to maintain the high levels of purity necessary to prevent\noperational problems caused by contamination. Helium losses and contamination\ncontrol are especially important for test stands that have cryogenic\ndistribution systems operating continuously with frequent changeover of\ncryogenic temperature components that are being tested. This paper describes a\nmathematical model to estimate the quantity of helium lost and the purity of\nthe helium after the pump and backfill procedure is complete. The process to\ndetermine the optimal time during pump down to cut off pumping and start\nbackfilling is described. There is a tradeoff between trying to achieve the\nlowest possible pressure during pumping and the quantity of air leaking into\nthe volume while pumping is occurring. An additional benefit of careful\nselection of pump and backfill parameters in conjunction with real-time\npressure monitoring can reduce the labor and time required to complete a\nsuccessful pump and backfill procedure. This paper is intended to be a tool for\nengineers to review their pump and backfill procedures and measured data to\noptimize helium losses, system purity, and labor required.\n","versions":[{"version":"v1","created":"Mon, 21 Aug 2023 20:39:59 GMT"}],"update_date":"2023-09-01","authors_parsed":[["White","M.",""],["Theilacker","J.",""],["Barba","M.",""]]}
+{"id":"2308.16301","submitter":"Runbo Li","authors":"Runbo Li","title":"On some problems of primes with the floor function","comments":"8 pages. The second version is a complete improvement on the first\n version, so we only present the best results","journal-ref":null,"doi":null,"report-no":null,"categories":"math.NT","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" Let $\\left[x\\right]$ be the largest integer not exceeding $x$. For $0<\\theta\n\\leq 1$, let $\\pi_{\\theta}(x)$ denote the number of integers $n$ with $1 \\leq n\n\\leq x^{\\theta}$ such that $\\left[\\frac{x}{n}\\right]$ is prime and\n$S_{\\mathbb{P}}(x)$ denote the number of primes in the sequence\n$\\left\\{\\left[\\frac{x}{n}\\right]\\right\\}_{n \\geqslant 1}$. In this paper, we\nobtain the asymptotic formula $$ \\pi_{\\theta}(x)=\\frac{x^{\\theta}}{(1-\\theta)\n\\log x}+O\\left(x^{\\theta}(\\log x)^{-2}\\right) $$ provide that\n$\\frac{435}{923}<\\theta<1$, and prove that $$ S_{\\mathbb{P}}(x)=x\\sum_{p}\n\\frac{1}{p(p+1)}+O_{\\varepsilon}\\left(x^{435/923+\\varepsilon}\\right) $$ for $x\n\\rightarrow \\infty$. Thus improve the previous result due to Ma, Wu and the\nauthor.\n","versions":[{"version":"v1","created":"Fri, 18 Aug 2023 13:25:41 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Li","Runbo",""]]}
+{"id":"2308.16302","submitter":"Alexander Shashkov","authors":"Alexander Shashkov","title":"Low lying zeros of Rankin-Selberg $L$-functions","comments":"32 pages, comments welcome!","journal-ref":null,"doi":null,"report-no":null,"categories":"math.NT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We study the low lying zeros of $GL(2) \\times GL(2)$ Rankin-Selberg\n$L$-functions. Assuming the generalized Riemann hypothesis, we compute the\n$1$-level density of the low-lying zeroes of $L(s, f \\otimes g)$ averaged over\nfamilies of Rankin-Selberg convolutions, where $f, g$ are cuspidal newforms\nwith even weights $k_1, k_2$ and prime levels $N_1, N_2$, respectively. The\nKatz-Sarnak density conjecture predicts that in the limit, the $1$-level\ndensity of suitable families of $L$-functions is the same as the distribution\nof eigenvalues of corresponding families of random matrices. The 1-level\ndensity relies on a smooth test function $\\phi$ whose Fourier transform\n$\\widehat\\phi$ has compact support. In general, we show the Katz-Sarnak density\nconjecture holds for test functions $\\phi$ with $\\operatorname{supp}\n\\widehat\\phi \\subset (-\\frac{1}{2}, \\frac{1}{2})$. When $N_1 = N_2$, we prove\nthe density conjecture for $\\operatorname{supp} \\widehat\\phi \\subset\n(-\\frac{5}{4}, \\frac{5}{4})$ when $k_1 \\ne k_2$, and $\\operatorname{supp}\n\\widehat\\phi \\subset (-\\frac{29}{28}, \\frac{29}{28})$ when $k_1 = k_2$. A lower\norder term emerges when the support of $\\widehat\\phi$ exceeds $(-1, 1)$, which\nmakes these results particularly interesting. The main idea which allows us to\nextend the support of $\\widehat\\phi$ beyond $(-1, 1)$ is an analysis of the\nproducts of Kloosterman sums arising from the Petersson formula. We also\ncarefully treat the contributions from poles in the case where $k_1 = k_2$. Our\nwork provides conditional lower bounds for the proportion of Rankin-Selberg\n$L$-functions which are non-vanishing at the central point and for a related\nconjecture of Keating and Snaith on central $L$-values.\n","versions":[{"version":"v1","created":"Wed, 23 Aug 2023 17:35:32 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Shashkov","Alexander",""]]}
+{"id":"2308.16303","submitter":"Subham De","authors":"Subham De","title":"On the Order Estimates for Specific Functions of $\\zeta(s)$ and its\n Contribution towards the Analytic Proof of The Prime Number Theorem","comments":"26 Pages ; Survey Report","journal-ref":null,"doi":null,"report-no":null,"categories":"math.GM","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this article, our primary objective is to provide an extensive\nintroduction to the Riemann Zeta Function $\\zeta(s)$, an integral part in the\nstudy different Analytic aspects relevant to the proof of the famous \"Prime\nNumber Theorem\" (PNT). The whole paper comprises of three mutually exclusive\nparts. In the initial sections, we define all the necessary terminologies and\nresults handpicked from the areas related to Analytic Number Theory and\nAnalysis of Complex Numbers, whereas, the second half provides an exposition on\nmeromorphic properties of $\\zeta(s)$, with brief deduction of the Riemann's\nFunctional Equation for the same. The final and most important part of this\nessay is solely dedicated towards appreciating the significance of the proof of\nthe Prime Number Theorem, if at all observed from an Analytic point of view.\nSubstantial amount of references in any of the topics pertinent to the contents\nof this paper have been included in the \\texttt{References} section for the\nreader's convenience, which I do believe shall prove to be resourceful to its\nardent readers and scholars.\n","versions":[{"version":"v1","created":"Mon, 28 Aug 2023 17:20:23 GMT"}],"update_date":"2023-09-01","authors_parsed":[["De","Subham",""]]}
+{"id":"2308.16304","submitter":"Chu-Ping Yu","authors":"Chu-Ping Yu, Francisco Vega Iba\\~nez, Armand B\\'ech\\'e, Johan Verbeeck","title":"Quantum Wavefront Shaping with a 48-element Programmable Phase Plate for\n Electrons","comments":"12 pages, 9 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.ins-det physics.optics","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We present a 48-element programmable phase plate for coherent electron waves\nconsisting of chip-based microscopic electrostatic elements. This brings the\nhighly successful concept of wavefront shaping from light optics into the realm\nof electron optics and provides an important new degree of freedom to prepare\nthe quantum state of electron waves. The phase plate is produced by a\ncombination of photolithography and focused ion beam post-processing. It\nconsists of an array of 48 electrostatic Einzel lenses distributed along a\npolar grid with 12-fold rotational symmetry. The phase plate chip is controlled\nby a series of 16-bit digital-to-analog converters and is mounted on an\naperture rod placed in the C2 plane of a state-of-the-art transmission electron\nmicroscope operating in the 100-300 keV range. The experimental phase plate\nbehavior is characterized by a Gerchberg-Saxton phase reconstruction algorithm,\nshowing a phase sensitivity of 0.075 rad/mV at 300 keV, with a phase resolution\nof approximately 3$\\cdot$10$^{-3}~\\pi$. The performance of the phase plate is\ndemonstrated by preparing a series of orthogonal quantum states with specific\nintensity profiles. We discuss a range of attractive applications in electron\nmicroscopy and show an experimental proof of concept of a self-tuning electron\nmicroscope setup, demonstrating the potential of adaptive electron optics.\n","versions":[{"version":"v1","created":"Wed, 23 Aug 2023 12:04:25 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Yu","Chu-Ping",""],["Iba\u00f1ez","Francisco Vega",""],["B\u00e9ch\u00e9","Armand",""],["Verbeeck","Johan",""]]}
+{"id":"2308.16305","submitter":"Bj\\\"orn Johannesson","authors":"Bj\\\"orn Johannesson","title":"Sequences related to Lehmer's problem","comments":"34 pages, 1 figure, Master's thesis","journal-ref":null,"doi":null,"report-no":null,"categories":"math.NT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The Mahler measure of a monic polynomial $P(x) = a_dx^d + a_{d-1}x^{d-1} +\n\\dots + a_1x + a_0$ is defined as $M(P) := |a_d| \\prod_{P(\\alpha)=0} \\max\\{1,\n|\\alpha|\\}$, where the product runs over all roots of $P$. Lehmer's problem\nasks whether there exists a constant $C>1$ such that $M(P) \\geq C$ for all\nnoncyclotomic polynomials in $\\mathbb{Z}[x]$. In this thesis, we examine the\nproperties of various integer sequences related to this problem, with special\nfocus on how these sequences might help solving Lehmer's problem.\n","versions":[{"version":"v1","created":"Fri, 18 Aug 2023 09:52:38 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Johannesson","Bj\u00f6rn",""]]}
+{"id":"2308.16306","submitter":"Yiqiang Li","authors":"Yiqiang Li","title":"Quantum groups and edge contractions","comments":"Comments welcome","journal-ref":null,"doi":null,"report-no":null,"categories":"math.QA math.RT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We study the behaviors of quantum groups under an edge contraction. We show\nthat there exists an explicit embedding induced by an edge contraction\noperation. We further conjecture that this explicit embedding is a section of\nan explicit subquotient. This conjecture is proved when restricts to\nnegative/positive half of a quantum group. The compatibility of the Hopf\nalgebra structure of, and many other intrinsic structures associated with, a\nquantum group with the embedding and subquotient is studied along the way. The\nembedding phenomena are further observed in various representation theoretic\nobjects such as Weyl groups and Chevalley groups.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 20:20:19 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Li","Yiqiang",""]]}
+{"id":"2308.16307","submitter":"Minjae Kim","authors":"Minjae Kim","title":"Implementation Of MNIST Dataset Learning Using Analog Circuit","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.ET cs.AR cs.NE","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" There have been many attempts to implement neural networks in the analog\ncircuit. Most of them had a lot of input terms, and most studies implemented\nneural networks in the analog circuit through a circuit simulation program\ncalled Spice to avoid the need to design chips at a high cost and implement\ncircuits directly to input them. In this study, we will implement neural\nnetworks using a capacitor and diode and use microcontrollers (Arduino Mega\n2560 R3 boards) to drive real-world models and analyze the results.\n","versions":[{"version":"v1","created":"Tue, 8 Aug 2023 12:06:55 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Kim","Minjae",""]]}
+{"id":"2308.16308","submitter":"A. Yu. Petrov","authors":"M. Gomes, J. G. Lima, T. Mariz, J. R. Nascimento, A. Yu. Petrov","title":"Non-Abelian Carroll-Field-Jackiw term term in a Rarita-Schwinger model","comments":"11 pages","journal-ref":"Phys. Lett. B845, 138141 (2023)","doi":"10.1016/j.physletb.2023.138141","report-no":null,"categories":"hep-th","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper, we demonstrate the possibility of generating a non-Abelian\nCarroll-Field-Jackiw (CFJ) term in the theory of a non-Abelian gauge field\ncoupled to a spin-3/2 field in the presence of the constant axial vector field.\nApplying two regularization schemes, we prove that this term is finite and\nambiguous, particularly vanishing within the 't Hooft-Veltman scheme.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 20:24:38 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Gomes","M.",""],["Lima","J. G.",""],["Mariz","T.",""],["Nascimento","J. R.",""],["Petrov","A. Yu.",""]]}
+{"id":"2308.16309","submitter":"EPTCS","authors":"George A. Elder (Queen Mary University of London) and Conrad Bessant\n (Queen Mary University of London)","title":"Inferring Compensatory Kinase Networks in Yeast using Prolog","comments":"In Proceedings ICLP 2023, arXiv:2308.14898","journal-ref":"EPTCS 385, 2023, pp. 260-273","doi":"10.4204/EPTCS.385.26","report-no":null,"categories":"q-bio.MN cs.SC","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Signalling pathways are conserved across different species, therefore making\nyeast a model organism to study these via disruption of kinase activity. Yeast\nhas 159 genes that encode protein kinases and phosphatases, and 136 of these\nhave counterparts in humans. Therefore any insight in this model organism could\npotentially offer indications of mechanisms of action in the human kinome. The\nstudy utilises a Prolog-based approach, data from a yeast kinase deletions\nstrains study and publicly available kinase-protein associations. Prolog, a\nprogramming language that is well-suited for symbolic reasoning is used to\nreason over the data and infer compensatory kinase networks. This approach is\nbased on the idea that when a kinase is knocked out, other kinases may\ncompensate for this loss of activity. Background knowledge on kinases targeting\nproteins is used to guide the analysis. This knowledge is used to infer the\npotential compensatory interactions between kinases based on the changes in\nphosphorylation observed in the phosphoproteomics data from the yeast study.\nThe results demonstrate the effectiveness of the Prolog-based approach in\nanalysing complex cell signalling mechanisms in yeast. The inferred\ncompensatory kinase networks provide new insights into the regulation of cell\nsignalling in yeast and may aid in the identification of potential therapeutic\ntargets for modulating signalling pathways in yeast and other organisms.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 20:29:41 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Elder","George A.","","Queen Mary University of London"],["Bessant","Conrad","","Queen Mary University of London"]]}
+{"id":"2308.16310","submitter":"Sam Nariman","authors":"Sam Nariman","title":"On invariants of foliated sphere bundles","comments":"16 pages, with an appendix by Nils Prigge","journal-ref":null,"doi":null,"report-no":null,"categories":"math.AT math.GT","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Morita showed that for each power of the Euler class, there are examples of\nflat $\\mathbb{S}^1$-bundles for which the power of the Euler class does not\nvanish. Haefliger asked if the same holds for flat odd-dimensional sphere\nbundles. In this paper, for a manifold $M$ with a free torus action, we prove\nthat certain $M$-bundles are cobordant to a flat $M$-bundle and as a\nconsequence, we answer Haefliger's question. We show that the powers of the\nEuler class and Pontryagin classes $p_i$ for $i\\leq n-1$ are all non-trivial in\n$H^*(\\text{BDiff}^{\\delta}_+(\\mathbb{S}^{2n-1});\\mathbb{Q})$. In the appendix,\nNils Prigge corrects a claim by Haefliger about the vanishing of certain\nclasses in the smooth group cohomology of $\\text{Diff}_+(\\mathbb{S}^3)$.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 20:36:05 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Nariman","Sam",""]]}
+{"id":"2308.16311","submitter":"Karl A. Kalina","authors":"Karl A. Kalina, Philipp Gebhart, J\\\"org Brummund, Lennart Linden,\n WaiChing Sun, Markus K\\\"astner","title":"Neural network-based multiscale modeling of finite strain\n magneto-elasticity with relaxed convexity criteria","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CE","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" We present a framework for the multiscale modeling of finite strain\nmagneto-elasticity based on physics-augmented neural networks (NNs). By using a\nset of problem specific invariants as input, an energy functional as the output\nand by adding several non-trainable expressions to the overall total energy\ndensity functional, the model fulfills multiple physical principles by\nconstruction, e.g., thermodynamic consistency and material symmetry. Three\nNN-based models with varying requirements in terms of an extended polyconvexity\ncondition of the magneto-elastic potential are presented. First, polyconvexity,\nwhich is a global concept, is enforced via input convex neural networks\n(ICNNs). Afterwards, we formulate a relaxed local version of the polyconvexity\nand fulfill it in a weak sense by adding a tailored loss term. As an\nalternative, a loss term to enforce the weaker requirement of strong\nellipticity locally is proposed, which can be favorable to obtain a better\ntrade-off between compatibility with data and physical constraints. Databases\nfor training of the models are generated via computational homogenization for\nboth compressible and quasi-incompressible magneto-active polymers (MAPs).\nThereby, to reduce the computational cost, 2D statistical volume elements and\nan invariant-based sampling technique for the pre-selection of relevant states\nare used. All models are calibrated by using the database, whereby\ninterpolation and extrapolation are considered separately. Furthermore, the\nperformance of the NN models is compared to a conventional model from the\nliterature. The numerical study suggests that the proposed physics-augmented NN\napproach is advantageous over the conventional model for MAPs. Thereby, the two\nmore flexible NN models in combination with the weakly enforced local\npolyconvexity lead to good results, whereas the model based only on ICNNs has\nproven to be too restrictive.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 20:38:21 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Kalina","Karl A.",""],["Gebhart","Philipp",""],["Brummund","J\u00f6rg",""],["Linden","Lennart",""],["Sun","WaiChing",""],["K\u00e4stner","Markus",""]]}
+{"id":"2308.16312","submitter":"Alexander Aycock","authors":"Alexander Aycock","title":"On Euler's Solution of the simple Difference Equation","comments":"11 pages","journal-ref":"Euleriana: 3(2), pp.136-146 (2023)","doi":"10.56031/2693-9908.1058","report-no":null,"categories":"math.HO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this note we will discuss Euler's solution of the simple difference\nequation that he gave in his paper{\\it ``De serierum determinatione seu nova\nmethodus inveniendi terminos generales serierum\"} \\cite{E189} (E189:``On the\ndetermination of series or a new method of finding the general terms of\nseries\") and also present a derivation for the values of the Riemann\n$\\zeta$-function at positive integer numbers based on Euler's ideas.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 20:39:55 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Aycock","Alexander",""]]}
+{"id":"2308.16313","submitter":"Alexander Aycock","authors":"Alexander Aycock","title":"Euler's First Proof of Stirling's Formula","comments":"9 pages","journal-ref":"Euleriana: 3(2), pp.136-146 (2023)","doi":"10.56031/2693-9908.1058","report-no":null,"categories":"math.HO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We present a proof given by Euler in his paper {\\it ``De serierum\ndeterminatione seu nova methodus inveniendi terminos generales serierum\"}\n\\cite{E189} (E189:``On the determination of series or a new method of finding\nthe general terms of series\") for Stirling's formula. Euler's proof uses his\ntheory of difference equations with constant coefficients. This theory outgrew\nfrom his earlier considerations on inhomogeneous differential equations with\nconstant coefficients of finite order that he tried to extend to the case of\ninfinite order.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 20:46:04 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Aycock","Alexander",""]]}
+{"id":"2308.16314","submitter":"Gennady Samorodnitsky","authors":"Takashi Owed and Gennady Samorodnitsky","title":"Limit theorems for high-dimensional Betti numbers in the multiparameter\n random simplicial complexes","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.PR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We consider the multiparameter random simplicial complex on a vertex set $\\{\n1,\\dots,n \\}$, which is parameterized by multiple connectivity probabilities.\nOur key results concern the topology of this complex of dimensions higher than\nthe critical dimension. We show that the higher-dimensional Betti numbers\nsatisfy strong laws of large numbers and central limit theorems. Moreover,\nlower tail large deviations for these Betti numbers are also discussed. Some of\nour results indicate an occurrence of phase transitions in terms of the scaling\nconstants of the central limit theorem, and the exponentially decaying rate of\nconvergence of lower tail large deviation probabilities.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 20:46:18 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Owed","Takashi",""],["Samorodnitsky","Gennady",""]]}
+{"id":"2308.16315","submitter":"Aranyo Mitra","authors":"Aranyo Mitra, Ahmal Jawad Zafar, Vadym Apalkov","title":"Ultrafast Field-driven Valley Polarization of Transition Metal\n Dichalcogenide Quantum Dots","comments":"10 pages, 12 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mes-hall","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We study theoretically the electron dynamics of transition metal\ndichalcogenide quantum dots in the field of an ultrashort and ultrafast\ncircularly polarized optical pulse. The quantum dots have the shape of a disk\nand their electron systems are described within an effective model with\ninfinite mass boundary conditions. Similar to transition metal dichalcogenide\nmonolayers, a circularly polarized pulse generates ultrafast valley\npolarization of such quantum dots. The dependence of the valley polarization on\nthe size of the dot is sensitive to the dot material and, for different\nmaterials, show both monotonic increase with the dot radius and nonmonotonic\nbehavior with a local maximum at a finite dot radius.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 20:46:28 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Mitra","Aranyo",""],["Zafar","Ahmal Jawad",""],["Apalkov","Vadym",""]]}
+{"id":"2308.16316","submitter":"Tanujit Chakraborty","authors":"Tanujit Chakraborty, Ujjwal Reddy K S, Shraddha M. Naik, Madhurima\n Panja, Bayapureddy Manvitha","title":"Ten Years of Generative Adversarial Nets (GANs): A survey of the\n state-of-the-art","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.CV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Since their inception in 2014, Generative Adversarial Networks (GANs) have\nrapidly emerged as powerful tools for generating realistic and diverse data\nacross various domains, including computer vision and other applied areas.\nConsisting of a discriminative network and a generative network engaged in a\nMinimax game, GANs have revolutionized the field of generative modeling. In\nFebruary 2018, GAN secured the leading spot on the ``Top Ten Global\nBreakthrough Technologies List'' issued by the Massachusetts Science and\nTechnology Review. Over the years, numerous advancements have been proposed,\nleading to a rich array of GAN variants, such as conditional GAN, Wasserstein\nGAN, CycleGAN, and StyleGAN, among many others. This survey aims to provide a\ngeneral overview of GANs, summarizing the latent architecture, validation\nmetrics, and application areas of the most widely recognized variants. We also\ndelve into recent theoretical developments, exploring the profound connection\nbetween the adversarial principle underlying GAN and Jensen-Shannon divergence,\nwhile discussing the optimality characteristics of the GAN framework. The\nefficiency of GAN variants and their model architectures will be evaluated\nalong with training obstacles as well as training solutions. In addition, a\ndetailed discussion will be provided, examining the integration of GANs with\nnewly developed deep learning frameworks such as Transformers, Physics-Informed\nNeural Networks, Large Language models, and Diffusion models. Finally, we\nreveal several issues as well as future research outlines in this field.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 20:46:45 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Chakraborty","Tanujit",""],["S","Ujjwal Reddy K",""],["Naik","Shraddha M.",""],["Panja","Madhurima",""],["Manvitha","Bayapureddy",""]]}
+{"id":"2308.16317","submitter":"Xiao Liang","authors":"Xiao Liang, Edward Hanna, Derek Simmel, Hang Liu, Yang Wang","title":"High Performance GPU Accelerated MuST Software","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.comp-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The MuST package is a computational software designed for ab initio\nelectronic structure calculations for solids. The Locally Self-consistent\nMultiple Scattering (LSMS) method implemented in MuST allows to perform the\nelectronic structure calculation for systems with a large number of atoms per\nunit cell. For the LSMS method with muffin-tin potential approximation, the\nmajor computational challenge is the matrix inverse for the scattering matrix\ncalculation, which could take more than 90\\% of the computing time. However,\nthe matrix inverse can be significantly accelerated by modern\ngraphical-processing-units (GPUs). In this paper, we discuss our approach to\nthe code acceleration by offloading the matrix inverse tasks to the GPUs\nthrough a Fortran-C interface from the Fortran code to the CUDA code. We report\nour performance results showing significant speedup ratio achieved to the\ncalculations of NiAu alloy, a candidate for thermoelectric materials.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 20:51:07 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Liang","Xiao",""],["Hanna","Edward",""],["Simmel","Derek",""],["Liu","Hang",""],["Wang","Yang",""]]}
+{"id":"2308.16318","submitter":"Alexander Aycock","authors":"Alexander Aycock","title":"Euler and the Legendre Polynomials","comments":"12 pages","journal-ref":"Euleriana: 3(2), pp.124-135 (2023)","doi":"10.56031/2693-9908.1054","report-no":null,"categories":"math.HO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this note we will present how Euler's investigations on various different\nsubjects lead to certain properties of the Legendre polynomials. More\nprecisely, we will show that the generating function and the difference\nequation for the Legendre polynomials was already written down by Euler in at\nleast two different papers. Furthermore, we will demonstrate that some familiar\nexpressions for the Legendre polynomials are corollaries of the\nbefore-mentioned works. Finally, we will show that Euler's ideas on continued\nfractions lead to an integral representation for the Legendre polynomials that\nseems to be less generally known.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 20:52:59 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Aycock","Alexander",""]]}
+{"id":"2308.16319","submitter":"Jenna Cario","authors":"Jenna Cario (1 and 2), Zhengchang Kou (1), April Dickenson (3),\n Christine U. Lee (4), Michael L. Oelze (1, 2, and 5) ((1) Beckman Institute\n for Advanced Science and Technology, University of Illinois at\n Urbana-Champaign, Urbana IL (2) Department of Electrical and Computer\n Engineering, University of Illinois at Urbana-Champaign, Urbana IL (3) Breast\n Imaging Department at Carle Foundation Hospital, Urbana IL (4) Radiology\n Department at Mayo Clinic, Rochester MN (5) Carle Illinois College of\n Medicine, University of Illinois at Urbana-Champaign, Urbana IL)","title":"A Radiological Clip Design Using Ultrasound Identification to Improve\n Localization","comments":"8 pages, 10 figures, for associated .gif files, see\n https://drive.google.com/drive/folders/1yhRTtPJQ6mDHKmcxeqGnqy1oCQVsSDwC?usp=drive_link,\n submitted to IEEE Transactions on Biomedical Engineering (TBME)","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SP","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Objective: We demonstrate the use of ultrasound to receive an acoustic signal\ntransmitted from a radiological clip designed from a custom circuit. This\nsignal encodes an identification number and is localized and identified\nwirelessly by the ultrasound imaging system. Methods: We designed and\nconstructed the test platform with a Teensy 4.0 microcontroller core to detect\nultrasonic imaging pulses received by a transducer embedded in a phantom, which\nacted as the radiological clip. Ultrasound identification (USID) signals were\ngenerated and transmitted as a result. The phantom and clip were imaged using\nan ultrasonic array (Philips L7-4) connected to a Verasonics Vantage 128 system\noperating in pulse inversion (PI) mode. Cross-correlations were performed to\nlocalize and identify the code sequences in the PI images. Results: USID\nsignals were detected and visualized on B-mode images of the phantoms with up\nto sub-millimeter localization accuracy. The average detection rate across\n1,600 frames of ultrasound data was 94.6%. Tested ID values exhibited\ndifferences in detection rates. Conclusion: The USID clip produced\nidentifiable, distinguishable, and localizable signals when imaged.\nSignificance: Radiological clips are used to mark breast cancer being treated\nby neoadjuvant chemotherapy (NAC) via implant in or near treated lesions. As\nNAC progresses, available marking clips can lose visibility in ultrasound, the\nimaging modality of choice for monitoring NAC-treated lesions. By transmitting\nan active signal, more accurate and reliable ultrasound localization of these\nclips could be achieved and multiple clips with different ID values could be\nimaged in the same field of view.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 20:53:27 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Cario","Jenna","","1 and 2"],["Kou","Zhengchang","","1, 2, and 5"],["Dickenson","April","","1, 2, and 5"],["Lee","Christine U.","","1, 2, and 5"],["Oelze","Michael L.","","1, 2, and 5"]]}
+{"id":"2308.16320","submitter":"Ningning Ding","authors":"Ningning Ding, Zhixuan Fang, Jianwei Huang","title":"Information Disclosure under Competition in Sharing Systems","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.GT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Sharing systems have facilitated the redistribution of underused resources by\nproviding convenient online marketplaces for individual sellers and buyers.\nHowever, sellers in these systems may not fully disclose the information of\ntheir shared commodities, due to strategic behaviors or privacy concerns.\nSellers' strategic information disclosure significantly affects buyers' user\nexperiences and systems' reputation. This paper presents the first analytical\nstudy on information disclosure and pricing of competing sellers in sharing\nsystems. In particular, we propose a two-stage game framework to capture\nsellers' strategic behaviors and buyers' decisions. Although the optimization\nproblem is challenging due to sellers' non-convex and non-monotonic objectives,\nwe completely characterize the complex market equilibria by decomposing it into\nseveral tractable subproblems. We demonstrate that full disclosure by all\nsellers or non-disclosure by all sellers will both lead to intense price\ncompetition. The former all-disclosure case is never an equilibrium even when\nall sellers have good commodity qualities and low privacy costs, while the\nlatter non-disclosure case can be an equilibrium under which all sellers get\nzero profit. We also reveal several critical factors that affect sellers'\ninformation disclosure. Interestingly, sellers' sharing capacity limitation and\nbuyers' estimation biases encourage information disclosure as they mitigate\nsellers' competition.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 20:53:48 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Ding","Ningning",""],["Fang","Zhixuan",""],["Huang","Jianwei",""]]}
+{"id":"2308.16321","submitter":"Asmit Nayak","authors":"Asmit Nayak, Rishabh Khandelwal, Kassem Fawaz","title":"Exposing and Addressing Security Vulnerabilities in Browser Text Input\n Fields","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CR cs.CY","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" In this work, we perform a comprehensive analysis of the security of text\ninput fields in web browsers. We find that browsers' coarse-grained permission\nmodel violates two security design principles: least privilege and complete\nmediation. We further uncover two vulnerabilities in input fields, including\nthe alarming discovery of passwords in plaintext within the HTML source code of\nthe web page. To demonstrate the real-world impact of these vulnerabilities, we\ndesign a proof-of-concept extension, leveraging techniques from static and\ndynamic code injection attacks to bypass the web store review process. Our\nmeasurements and case studies reveal that these vulnerabilities are prevalent\nacross various websites, with sensitive user information, such as passwords,\nexposed in the HTML source code of even high-traffic sites like Google and\nCloudflare. We find that a significant percentage (12.5\\%) of extensions\npossess the necessary permissions to exploit these vulnerabilities and identify\n190 extensions that directly access password fields. Finally, we propose two\ncountermeasures to address these risks: a bolt-on JavaScript package for\nimmediate adoption by website developers allowing them to protect sensitive\ninput fields, and a browser-level solution that alerts users when an extension\naccesses sensitive input fields. Our research highlights the urgent need for\nimproved security measures to protect sensitive user information online.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 21:02:48 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Nayak","Asmit",""],["Khandelwal","Rishabh",""],["Fawaz","Kassem",""]]}
+{"id":"2308.16322","submitter":"Maarten de Hoop","authors":"Maarten V. de Hoop, Masato Kimura, Ching-Lung Lin, Gen Nakamura","title":"Resolvent Estimates for Viscoelastic Systems of Extended Maxwell Type\n and their Applications","comments":"21 pages, 2 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"math.AP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In the theory of viscoelasticity, an important class of models admits a\nrepresentation in terms of springs and dashpots. Widely used members of this\nclass are the Maxwell model and its extended version. This paper concerns\nresolvent estimates for the system of equations for the anisotropic, extended\nMaxwell model, abbreviated as the EMM, and its marginal realization which\nincludes an inertia term; special attention is paid to the introduction of\naugmented variables. This leads to the augmented system that will also be\nreferred to as the \"original\" system. A reduced system is then formed which\nencodes essentially the EMM; it is a closed system with respect to the particle\nvelocity and the difference between the elastic and viscous strains. Based on\nresolvent estimates, it is shown that the original and reduced systems generate\n$C_0$-groups and the reduced system generates a $C_0$-semigroup of contraction.\nNaturally, the EMM can be written in integrodifferential form leading\nexplicitly to relaxation and a viscoelastic integro-differential system.\nHowever, there is a difference between the original and integrodifferential\nsystems, in general, with consequences for whether their solutions generate\nsemigroups or not. Finally, an energy estimate is obtained for the reduced\nsystem, and it is proven that its solutions decay exponentially as time tends\nto infinity. The limiting amplitude principle follows readily from these two\nresults.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 21:03:56 GMT"}],"update_date":"2023-09-01","authors_parsed":[["de Hoop","Maarten V.",""],["Kimura","Masato",""],["Lin","Ching-Lung",""],["Nakamura","Gen",""]]}
+{"id":"2308.16323","submitter":"Erick Rodrigues","authors":"Jo\\~ao Henrique Pereira Machado and Gilson Adamczuk Oliveira and\n \\'Erick Oliveira Rodrigues","title":"Software multiplataforma para a segmenta\\c{c}\\~ao de vasos sangu\\'ineos\n em imagens da retina","comments":"in Portuguese language. International Conference on Production\n Research - Americas 2022.\n https://www.even3.com.br/anais/foreigners_subscription_icpr_americas22/664603-software-multiplataforma-para-a-segmentacao-de-vasos-sanguineos-em-imagens-da-retina/","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.IV cs.CV cs.HC","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" In this work, we utilize image segmentation to visually identify blood\nvessels in retinal examination images. This process is typically carried out\nmanually. However, we can employ heuristic methods and machine learning to\nautomate or at least expedite the process. In this context, we propose a\ncross-platform, open-source, and responsive software that allows users to\nmanually segment a retinal image. The purpose is to use the user-segmented\nimage to retrain machine learning algorithms, thereby enhancing future\nautomated segmentation results. Moreover, the software also incorporates and\napplies certain image filters established in the literature to improve vessel\nvisualization. We propose the first solution of this kind in the literature.\nThis is the inaugural integrated software that embodies the aforementioned\nattributes: open-source, responsive, and cross-platform. It offers a\ncomprehensive solution encompassing manual vessel segmentation, as well as the\nautomated execution of classification algorithms to refine predictive models.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 21:06:11 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Machado","Jo\u00e3o Henrique Pereira",""],["Oliveira","Gilson Adamczuk",""],["Rodrigues","\u00c9rick Oliveira",""]]}
+{"id":"2308.16324","submitter":"Daniel Klain","authors":"Tanya Khovanova and Daniel A. Klain","title":"What's for dessert?","comments":"13 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.HO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Two people meet in a coffeehouse and decide to share one dessert from a menu\nof several possible choices. How should they choose which one? A method is\npresented that is intended to be practical, avoiding the need for long\nnegotiations or complete menu rankings, while offering a high likelihood of\nsatisfaction and fairness to both participants. The method is also extended to\nparties of 3 or more people sharing one item from a menu of several choices.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 21:10:28 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Khovanova","Tanya",""],["Klain","Daniel A.",""]]}
+{"id":"2308.16325","submitter":"Irem Ustek","authors":"\\.Irem \\\"Ustek, Jay Desai, Iv\\'an L\\'opez Torrecillas, Sofiane Abadou,\n Jinjie Wang, Quentin Fever, Sandhya Rani Kasthuri, Yang Xing, Weisi Guo,\n Antonios Tsourdos","title":"Two-Stage Violence Detection Using ViTPose and Classification Models at\n Smart Airports","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" This study introduces an innovative violence detection framework tailored to\nthe unique requirements of smart airports, where prompt responses to violent\nsituations are crucial. The proposed framework harnesses the power of ViTPose\nfor human pose estimation. It employs a CNN - BiLSTM network to analyse spatial\nand temporal information within keypoints sequences, enabling the accurate\nclassification of violent behaviour in real time. Seamlessly integrated within\nthe SAFE (Situational Awareness for Enhanced Security framework of SAAB, the\nsolution underwent integrated testing to ensure robust performance in real\nworld scenarios. The AIRTLab dataset, characterized by its high video quality\nand relevance to surveillance scenarios, is utilized in this study to enhance\nthe model's accuracy and mitigate false positives. As airports face increased\nfoot traffic in the post pandemic era, implementing AI driven violence\ndetection systems, such as the one proposed, is paramount for improving\nsecurity, expediting response times, and promoting data informed decision\nmaking. The implementation of this framework not only diminishes the\nprobability of violent events but also assists surveillance teams in\neffectively addressing potential threats, ultimately fostering a more secure\nand protected aviation sector. Codes are available at:\nhttps://github.com/Asami-1/GDP.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 21:20:15 GMT"}],"update_date":"2023-09-01","authors_parsed":[["\u00dcstek","\u0130rem",""],["Desai","Jay",""],["Torrecillas","Iv\u00e1n L\u00f3pez",""],["Abadou","Sofiane",""],["Wang","Jinjie",""],["Fever","Quentin",""],["Kasthuri","Sandhya Rani",""],["Xing","Yang",""],["Guo","Weisi",""],["Tsourdos","Antonios",""]]}
+{"id":"2308.16326","submitter":"Pawel Tecmer Dr hab","authors":"Pawe{\\l} Tecmer and Marta Ga{\\l}y\\'nska and Lena Szczuczko and\n Katharina Boguslawski","title":"Geminal-based strategies for modeling large building blocks of organic\n electronic materials","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.chem-ph cond-mat.mtrl-sci","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We elaborate on unconventional electronic structure methods based on geminals\nand their potential to advance the rapidly developing field of organic\nphotovoltaics (OPV). Specifically, we focus on the computational advantages of\ngeminal-based methods over standard approaches and identify the critical\naspects of OPV development. Examples are reliable and efficient computations of\norbital energies, electronic spectra, and van-der-Waals interactions.\nGeminal-based models can also be combined with quantum embedding techniques and\na quantum information analysis of orbital interactions to gain a fundamental\nunderstanding of the electronic structures and properties of realistic OPV\nbuilding blocks. Furthermore, other organic components present in, for\ninstance, dye-sensitized solar cells (DSSC) represent another promising scope\nof application. Finally, we provide numerical examples predicting the\nproperties of a small building block of OPV components and two carbazole-based\ndyes proposed as possible DSSC sensitizers.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 21:21:04 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Tecmer","Pawe\u0142",""],["Ga\u0142y\u0144ska","Marta",""],["Szczuczko","Lena",""],["Boguslawski","Katharina",""]]}
+{"id":"2308.16327","submitter":"Jane Morrisobn","authors":"Jane Morrison, Daniel Dicken, Ioannis Argyriou, Michael E. Ressler,\n Karl D. Gordon, Michael W. Regan, Misty Cracraft, George H. Rieke, Michael\n Engesser, Stacey Alberts, Javier Alvarez-Marquez, James W. Colbert, Ori D.\n Fox, Danny Gasman, David R. Law, Macarena Garcia Marin, Andras Gaspar, Pierre\n Guillard, Sarah Kendrew, Alvaro Labiano, Seppo Laine, Alberto Noriega-Crespo,\n Irene Shivaei, Greg Sloan","title":"JWST MIRI flight performance: Detector Effects and Data Reduction\n Algorithms","comments":null,"journal-ref":"Publications of the Astronomical Society of the Pacific, Volume\n 135, Number 1049, 2023","doi":"10.1088/1538-3873/acdea6","report-no":null,"categories":"astro-ph.IM","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The detectors in the Mid-Infrared Instrument (MIRI) of the James Webb Space\nTelescope (JWST) are arsenic-21 doped silicon impurity band conduction (Si:As\nIBC) devices and are direct descendants of the Spitzer IRAC22 long wavelength\narrays (channels 3 and 4). With appropriate data processing, they can provide\nexcellent per-23 formance. In this paper we discuss the various non-ideal\nbehaviors of these detectors that need to be addressed24 to realize their\npotential. We have developed a set of algorithms toward this goal, building on\nexperience with25 previous similar detector arrays. The MIRI-specific stage 1\npipeline algorithms, of a three stage JWST cali-26 bration pipeline, were\ndeveloped using pre-flight tests on the flight detectors and flight spares and\nhave been27 refined using flight data. This paper describes these algorithms,\nwhich are included in the first stage of the28 JWST Calibration Pipeline for\nthe MIRI instrument.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 21:22:43 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Morrison","Jane",""],["Dicken","Daniel",""],["Argyriou","Ioannis",""],["Ressler","Michael E.",""],["Gordon","Karl D.",""],["Regan","Michael W.",""],["Cracraft","Misty",""],["Rieke","George H.",""],["Engesser","Michael",""],["Alberts","Stacey",""],["Alvarez-Marquez","Javier",""],["Colbert","James W.",""],["Fox","Ori D.",""],["Gasman","Danny",""],["Law","David R.",""],["Marin","Macarena Garcia",""],["Gaspar","Andras",""],["Guillard","Pierre",""],["Kendrew","Sarah",""],["Labiano","Alvaro",""],["Laine","Seppo",""],["Noriega-Crespo","Alberto",""],["Shivaei","Irene",""],["Sloan","Greg",""]]}
+{"id":"2308.16328","submitter":"Li He","authors":"Li He, Siyi Hu, Ailun Pei","title":"Debunking Disinformation: Revolutionizing Truth with NLP in Fake News\n Detection","comments":"11 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AI","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" The Internet and social media have altered how individuals access news in the\nage of instantaneous information distribution. While this development has\nincreased access to information, it has also created a significant problem: the\nspread of fake news and information. Fake news is rapidly spreading on digital\nplatforms, which has a negative impact on the media ecosystem, public opinion,\ndecision-making, and social cohesion. Natural Language Processing(NLP), which\noffers a variety of approaches to identify content as authentic, has emerged as\na potent weapon in the growing war against disinformation. This paper takes an\nin-depth look at how NLP technology can be used to detect fake news and reveals\nthe challenges and opportunities it presents.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 21:25:31 GMT"}],"update_date":"2023-09-01","authors_parsed":[["He","Li",""],["Hu","Siyi",""],["Pei","Ailun",""]]}
+{"id":"2308.16329","submitter":"Hee Oh","authors":"Michael Chow and Hee Oh","title":"Jordan and Cartan spectra in higher rank with applications to\n correlations","comments":"47 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.GT math.DS math.GR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" For a given $d$-tuple $\\rho=(\\rho_1,\\dots,\\rho_d):\\Gamma \\to G$ of faithful\nZariski dense convex cocompact representations of a finitely generated group\n$\\Gamma$, we study the correlations of length spectra\n$\\{\\ell_{\\rho_i(\\gamma)}\\}_{[\\gamma]\\in[\\Gamma]}$ and correlations of\ndisplacement spectra $\\{\\mathsf{d}(\\rho_i(\\gamma)o,o)\\}_{\\gamma\\in\\Gamma}$. We\nprove that for any interior vector $\\mathsf v=(v_1,\\dots,v_d)$ in the spectrum\ncone, there exists $\\delta_\\rho(\\mathsf v) > 0$ such that for any $\\epsilon_1,\n\\dots, \\epsilon_d>0$, there exist $c_1,c_2> 0$ such\nthat\\begin{align*}&\\#\\{[\\gamma]\\in [\\Gamma]: v_iT \\le \\ell_{\\rho_i(\\gamma)} \\le\nv_i T+\\epsilon_i, \\;1 \\le i \\le d\\} \\sim c_1 \\frac{e^{\\delta_\\rho (\\mathsf\nv)T}}{ T^{{(d+1)}/{2}}};\\\\&\\#\\{\\gamma\\in \\Gamma: v_iT \\le\n\\mathsf{d}(\\rho_i(\\gamma)o,o) \\le v_i T+\\epsilon_i, \\;1 \\le i \\le d\\} \\sim c_2\n\\frac{e^{\\delta_\\rho (\\mathsf v)T}}{ T^{{(d-1)}/{2}}}.\\end{align*} The special\ncase where $\\Gamma$ is a surface group, $G=PSL_2(\\mathbb R)$, and $\\mathsf\nv=(1,1)$ was obtained by Schwarz and Sharp in 1993. We deduce this result as a\nspecial case of our main theorem on the distribution of Jordan projections with\nholonomies and Cartan projections in tubes of an Anosov subgroup $\\Gamma$ of a\nsemisimple real algebraic group $G$. We also show that the growth indicator of\n$\\Gamma$ remains the same when we use Jordan projections instead of Cartan\nprojections and tubes instead of cones. We deduce that for any Zariski dense\ndiscrete subgroup, there are exponentially many Jordan and Cartan projections\nin an arbitrarily small tube around any ray in the interior of the limit cone.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 21:27:03 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Chow","Michael",""],["Oh","Hee",""]]}
+{"id":"2308.16330","submitter":"Pedro Silva Correia","authors":"Pedro Silva Correia, Gabriel Dias Carvalho, Thiago R. de Oliveira,\n Ra\\'ul O. Vallejos and Fernando de Melo","title":"Canonical typicality under general quantum channels","comments":"6+7, 3 figures. V1. Comments are welcome","journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" With the control of ever more complex quantum systems becoming a reality, new\nscenarios are emerging where generalizations of the most foundational aspects\nof statistical quantum mechanics are imperative. In such experimental scenarios\nthe often natural correspondence between the particles that compose the system\nand the relevant degrees-of-freedom might not be observed. In the present work\nwe employ quantum channels to define generalized subsystems, which should\ncapture the pertinent degrees-of-freedom, and obtain their associated canonical\nstate. Moreover, we show that generalized subsystems also display the phenomena\nof canonical typicality, i.e., the generalized subsystem description generated\nfrom almost any microscopic pure state of the whole system will behave\nsimilarly as the corresponding canonical state. In particular we demonstrate\nthat the property regulating the emergence of the canonical typicality behavior\nis the entropy of the channel used to define the generalized subsystem.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 21:29:45 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Correia","Pedro Silva",""],["Carvalho","Gabriel Dias",""],["de Oliveira","Thiago R.",""],["Vallejos","Ra\u00fal O.",""],["de Melo","Fernando",""]]}
+{"id":"2308.16331","submitter":"David Martin de Diego","authors":"Miguel Vaquero, Jorge Cort\\'es and David Mart\\'in de Diego","title":"Symmetry Preservation in Hamiltonian Systems: Simulation and Learning","comments":"32 pages, 19 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"math-ph cs.LG cs.NA math.MP math.NA math.OC math.SG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This work presents a general geometric framework for simulating and learning\nthe dynamics of Hamiltonian systems that are invariant under a Lie group of\ntransformations. This means that a group of symmetries is known to act on the\nsystem respecting its dynamics and, as a consequence, Noether's Theorem,\nconserved quantities are observed. We propose to simulate and learn the\nmappings of interest through the construction of $G$-invariant Lagrangian\nsubmanifolds, which are pivotal objects in symplectic geometry. A notable\nproperty of our constructions is that the simulated/learned dynamics also\npreserves the same conserved quantities as the original system, resulting in a\nmore faithful surrogate of the original dynamics than non-symmetry aware\nmethods, and in a more accurate predictor of non-observed trajectories.\nFurthermore, our setting is able to simulate/learn not only Hamiltonian flows,\nbut any Lie group-equivariant symplectic transformation. Our designs leverage\npivotal techniques and concepts in symplectic geometry and geometric mechanics:\nreduction theory, Noether's Theorem, Lagrangian submanifolds, momentum\nmappings, and coisotropic reduction among others. We also present methods to\nlearn Poisson transformations while preserving the underlying geometry and how\nto endow non-geometric integrators with geometric properties. Thus, this work\npresents a novel attempt to harness the power of symplectic and Poisson\ngeometry towards simulating and learning problems.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 21:34:33 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Vaquero","Miguel",""],["Cort\u00e9s","Jorge",""],["de Diego","David Mart\u00edn",""]]}
+{"id":"2308.16332","submitter":"Andrew Giuliani","authors":"Marsha Berger, Andrew Giuliani","title":"A new provably stable weighted state redistribution algorithm","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.NA cs.NA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We propose a practical finite volume method on cut cells using state\nredistribution. Our algorithm is provably monotone, total variation\ndiminishing, and GKS stable in many situations, and shuts off smoothly as the\ncut cell size approaches a target value. Our analysis reveals why original\nstate redistribution works so well: it results in a monotone scheme for most\nconfigurations, though at times subject to a slightly smaller CFL condition.\nOur analysis also explains why a pre-merging step is beneficial. We show\ncomputational experiments in two and three dimensions.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 21:38:27 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Berger","Marsha",""],["Giuliani","Andrew",""]]}
+{"id":"2308.16333","submitter":"Jiuzhou Wang","authors":"Jiuzhou Wang and Eric F. Lock","title":"Multiple Augmented Reduced Rank Regression for Pan-Cancer Analysis","comments":"38 pages, 7 figures, 10 tables","journal-ref":null,"doi":null,"report-no":null,"categories":"stat.ME q-bio.QM stat.ML","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Statistical approaches that successfully combine multiple datasets are more\npowerful, efficient, and scientifically informative than separate analyses. To\naddress variation architectures correctly and comprehensively for\nhigh-dimensional data across multiple sample sets (i.e., cohorts), we propose\nmultiple augmented reduced rank regression (maRRR), a flexible matrix\nregression and factorization method to concurrently learn both covariate-driven\nand auxiliary structured variation. We consider a structured nuclear norm\nobjective that is motivated by random matrix theory, in which the regression or\nfactorization terms may be shared or specific to any number of cohorts. Our\nframework subsumes several existing methods, such as reduced rank regression\nand unsupervised multi-matrix factorization approaches, and includes a\npromising novel approach to regression and factorization of a single dataset\n(aRRR) as a special case. Simulations demonstrate substantial gains in power\nfrom combining multiple datasets, and from parsimoniously accounting for all\nstructured variation. We apply maRRR to gene expression data from multiple\ncancer types (i.e., pan-cancer) from TCGA, with somatic mutations as\ncovariates. The method performs well with respect to prediction and imputation\nof held-out data, and provides new insights into mutation-driven and auxiliary\nvariation that is shared or specific to certain cancer types.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 21:40:58 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Wang","Jiuzhou",""],["Lock","Eric F.",""]]}
+{"id":"2308.16334","submitter":"Shensheng Chen","authors":"Shensheng Chen and Zhen-Gang Wang","title":"Charge Asymmetry Suppresses Coarsening Dynamics in Polyelectrolyte\n Complex Coacervation","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.soft cond-mat.mtrl-sci","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Mixing solutions of oppositely charged macromolecules can result in\nliquid-liquid phase separation into a polymer-rich coacervate phase and a\npolymer-poor supernatant phase. Here we show that charge asymmetry in the\nconstituent polymers can slow down the coarsening dynamics, with an apparent\ngrowth exponent that deviates from the well-known 1/3 for neutral systems and\ndecreases with increasing degrees of charge asymmetry. Decreasing solvent\nquality accelerates the coarsening dynamics for asymmetric mixtures, but slows\ndown the coarsening dynamics for symmetric mixtures. We rationalize these\nresults by examining the interaction potential between merging droplets.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 21:55:48 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Chen","Shensheng",""],["Wang","Zhen-Gang",""]]}
+{"id":"2308.16335","submitter":"Mark Hagen","authors":"Mark Hagen, Giorgio Mangioni, Alessandro Sisto","title":"A Combinatorial Structure for Many Hierarchically Hyperbolic Spaces","comments":"64 pages, 10 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"math.GR math.GT math.MG","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" The combinatorial hierarchical hyperbolicity criterion is a very useful way\nof constructing new hierarchically hyperbolic spaces (HHSs). We show that,\nconversely, HHSs satisfying natural assumptions (satisfied, for example, by\nmapping class groups) admit a combinatorial HHS structure. This can be useful\nin constructions of new HHSs, and also our construction clarifies how to apply\nthe combinatorial HHS criterion to suspected examples. We also uncover\nconnections between HHS notions and lattice theory notions.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 21:55:56 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Hagen","Mark",""],["Mangioni","Giorgio",""],["Sisto","Alessandro",""]]}
+{"id":"2308.16336","submitter":"\\\"Omer Veysel \\c{C}a\\u{g}atan","authors":"Omer Veysel Cagatan","title":"ToddlerBERTa: Exploiting BabyBERTa for Grammar Learning and Language\n Understanding","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We present ToddlerBERTa, a BabyBERTa-like language model, exploring its\ncapabilities through five different models with varied hyperparameters.\nEvaluating on BLiMP, SuperGLUE, MSGS, and a Supplement benchmark from the\nBabyLM challenge, we find that smaller models can excel in specific tasks,\nwhile larger models perform well with substantial data. Despite training on a\nsmaller dataset, ToddlerBERTa demonstrates commendable performance, rivalling\nthe state-of-the-art RoBERTa-base. The model showcases robust language\nunderstanding, even with single-sentence pretraining, and competes with\nbaselines that leverage broader contextual information. Our work provides\ninsights into hyperparameter choices, and data utilization, contributing to the\nadvancement of language models.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 21:56:36 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Cagatan","Omer Veysel",""]]}
+{"id":"2308.16337","submitter":"Daniel Alpay A","authors":"Daniel Alpay and Paula Cerejeiras and Uwe Kaehler and Baruch Schneider","title":"Generalized $q$-Fock spaces and a new type of Stirling numbers","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.FA math-ph math.MP","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Using $q$-calculus we study a family of reproducing kernel Hilbert spaces\nwhich interpolate between the Hardy space and the Fock space. We give\ncharacterizations of these spaces in terms of classical operators such as\nintegration and backward-shift, and their q-calculus counterparts. We introduce\nan apparently new family of numbers, close to, but different from, the\nq-Stirling numbers of the second kind\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 21:59:44 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Alpay","Daniel",""],["Cerejeiras","Paula",""],["Kaehler","Uwe",""],["Schneider","Baruch",""]]}
+{"id":"2308.16338","submitter":"Yanbo Guo","authors":"Yanbo Guo, Xinzhe Hu, Hasan Siddiquee, Swapnil M. Yadav, Eun Sang\n Choi, Melanie J. Beazley, Yasuyuki Nakajima, and Yasumasa Takano","title":"Formation of random singlets in the nanocrystalline\n quasi-one-dimensional spin-1-2 antiferromagnet Sr21Bi8Cu2(CO3)2O41","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.str-el","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Induced by quenched disorder, random-singlet states occur in a variety of\nlow-dimensional spin-1/2 antiferromagnets, some of them candidates for quantum\nspin liquids. Here we report measurements of the specific heat, magnetization,\nand magnetic susceptibility of nanocrystalline Sr21Bi8Cu2(CO3)2O41, a\nquasi-one-dimensional spin-1/2 antiferromagnet with alternating bonds. The\nresults uncover the predominant presence of random-singlet spin pairs in this\nmaterial, with a logarithmic probability distribution, P(J), of the\nrenormalized, emergent exchange interaction, J, in zero magnetic field and P(J)\nproportional to 1/J in magnetic fields. We postulate that these unexpected J\ndependences, in contrast to the usual P(J) \\propto 1/J^{\\gamma} with 0 <\n{\\gamma} < 1, and possibly also the dichotomy, arise from the finite size of\nthe nanocrystals. Scaling functions for the specific heat and magnetization\nreproduce our magnetocaloric-effect data, with no adjustable parameters.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 22:17:08 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Guo","Yanbo",""],["Hu","Xinzhe",""],["Siddiquee","Hasan",""],["Yadav","Swapnil M.",""],["Choi","Eun Sang",""],["Beazley","Melanie J.",""],["Nakajima","Yasuyuki",""],["Takano","Yasumasa",""]]}
+{"id":"2308.16339","submitter":"William Howard","authors":"R. Michael Buehrer, William W. Howard, Steven Ellingson","title":"Open and Closed-Loop Weight Selection for Pattern Control of\n Paraboloidal Reflector Antennas with Reconfigurable Rim Scattering","comments":"14 pages, 19 figures. arXiv admin note: substantial text overlap with\n arXiv:2202.13219","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" It has been demonstrated that modifying the rim scattering of a paraboloidal\nreflector antenna through the use of reconfigurable elements along the rim\nfacilitates sidelobe modification including cancelling sidelobes. In this work\nwe investigate techniques for determining unit-modulus weights (i.e., weights\nwhich modify the phase of the scattered electric field) to accomplish sidelobe\ncancellation at arbitrary angles from the reflector axis. Specifically, it is\nshown that despite the large search space and the non-convexity of the cost\nfunction, weights can be found with reasonable complexity which provide\nsignificant cancellation capability. It is demonstrated that this can be done\nusing open-loop (i.e., with pattern knowledge), closed-loop (without pattern\nknowledge), or hybrid (with inexact pattern knowledge) techniques. Initially,\nwe examine the use of unconstrained weights. A primary finding is that\nsufficiently deep nulls are possible with essentially no change in the main\nlobe with practical (binary or quaternary) phase-only weights. The initial\nalgorithms require a knowledge of the antenna pattern (what we term an\n``open-loop'' approach). However, since perfect knowledge of the pattern is not\ntypically available, we also develop closed-loop approaches which require no\nknowledge of the antenna pattern. It is found that these closed-loop approaches\nprovide similar performance. We demonstrate the time-varying performance of\nclosed-loop approaches by simulating an interfering source which moves across\nthe field of view of the antenna. Finally, we leverage the advantages of both\nopen-loop and closed-loop approaches in a hybrid technique that exploits\ninexact knowledge of the pattern by seeding a closed-loop optimization with an\nopen-loop solution as its starting point.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 22:19:21 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Buehrer","R. Michael",""],["Howard","William W.",""],["Ellingson","Steven",""]]}
+{"id":"2308.16340","submitter":"Alexey Glazyrin","authors":"Arseniy Akopyan and Alexey Glazyrin","title":"On the total perimeter of disjoint convex bodies","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.MG math.CO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this note we introduce a pseudometric on convex planar curves based on\ndistances between normal lines and show its basic properties. Then we use this\npseudometric to give a short proof of the theorem by Pinchasi that the sum of\nperimeters of $k$ convex planar bodies with disjoint interiors contained in a\nconvex body of perimeter $p$ and diameter $d$ is not greater than $p+2(k-1)d$.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 22:20:07 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Akopyan","Arseniy",""],["Glazyrin","Alexey",""]]}
+{"id":"2308.16341","submitter":"Constanza Quijada","authors":"Constanza Quijada, Andr\\'es Anabal\\'on, Robert B. Mann and Julio Oliva","title":"Triple Points of Gravitational AdS Solitons and Black Holes","comments":"5 pages, 6 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-th","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We present a triple point of a new kind for General Relativity, at which two\ngravitational solitons can coexist with a planar black hole in anti de Sitter\nspace. Working in the context of non-linear electrodynamics, we obtain simple,\nsensible spacetimes for which the thermodynamics can be studied in an analytic\nmanner. The spacetimes are charged under the non-linear electrodynamics leading\nto an electric charge for black holes and a magnetic flux for solitons. In the\ngrand-canonical ensemble, we show that the phase space of the theory is very\nrich, containing re-entrant phase transitions, as well as triple points, for\nsmall values of the coupling controlling the non-linearity of the\nelectrodynamics Lagrangian.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 22:21:39 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Quijada","Constanza",""],["Anabal\u00f3n","Andr\u00e9s",""],["Mann","Robert B.",""],["Oliva","Julio",""]]}
+{"id":"2308.16342","submitter":"Susmita Adhikari","authors":"Neev Shah and Susmita Adhikari","title":"The abundance of core--collapsed subhalos in SIDM: insights from\n structure formation in $\\Lambda$CDM","comments":"12 pages, 11 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.CO astro-ph.GA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Dark matter halos can enter a phase of gravothermal core--collapse in the\npresence of self-interactions. This phase that follows a core--expansion phase\nis thought to be subdominant due to the long time-scales involved. However, it\nhas been shown that the collapse can be accelerated in tidal environments\nparticularly for halos that are centrally concentrated. Cosmological\nsimulations in $\\Lambda$CDM give us the full distribution of satellite orbits\nand halo profiles in the universe. We use properties of the orbits and profiles\nof subhalos from simulations to estimate the fraction of the subhalos in\ndifferent host halo environments, ranging from the Large Magellanic\ncloud(LMC)--like hosts to clusters, that are in the core--collapse phase. We\nuse fluid simulations of self--interacting dark matter (SIDM) to evolve\nsubhalos in their hosts including the effect of tidal truncation at the time of\ntheir pericenter crossing. We find that for parameters that allow the\ninteraction cross-section to be high at dwarf scales, at least $10~\\%$ of all\nsubhalos are expected to have intrinsically collapsed within Hubble time up to\nthe group mass host scales. This fraction increases significantly, becoming at\nleast 20$\\%$ when tidal interactions are considered. To identify these objects\nwe find that we either need to measure their densities at very small radial\nscales, where the subhalos show a bimodal distribution of densities, or\nalternatively we need to measure the slopes of their inner density profiles\nnear the scale radius, which are much steeper than NFW slopes expected in cold\ndark matter halos. Current measurements of central slopes of classical dwarfs\ndo not show a preference for collapsed objects, however this is consistent with\nan SIDM scenario where the classical dwarfs are expected to be in a cored\nphase.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 22:27:04 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Shah","Neev",""],["Adhikari","Susmita",""]]}
+{"id":"2308.16343","submitter":"Hyungju Park","authors":"Hyungju Park","title":"Almost generalized uniform matroids and excluded minors","comments":"Any comment or feedback is appreciated","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We establish that matroids characterized by the Tutte polynomial\n$\\sum_{i,j\\ge 0}t_{i,j}x^iy^j$ with coefficients $t_{i,j}$ vanishing for\n$(i,j)\\ge (k,l)$ precisely coincide with $(k,l)$-uniform matroids. This\ncharacterization implies that almost $(k,l)$-uniform matroids are exactly\nmatroids with $t_{k,l}\\le 1$ and $t_{i,j}=0$ if $(i,j)>(k,l)$. We also\ncharacterize excluded minors of almost $(k,l)$-uniform matroids in terms of\nTutte polynomial coefficients. Finally, we construct an infinite family of\nexcluded minors of almost $(k,l)$-uniform matroids which extend previously\nknown cases of almost uniform and almost paving matroids.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 22:29:35 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Park","Hyungju",""]]}
+{"id":"2308.16344","submitter":"Franziska Weickert","authors":"Korbinian Pfn\\\"ur, Joachim L\\\"udke, Rainer Ketzler, Morris Lindner,\n Timmy Reimann, Benjamin Wenzel, Rocco Holzhey, Lev Dorosinsky, Franziska\n Weickert","title":"Experimental setup for synchronized surface and magnetic loss studies of\n grain oriented FeSi steel sheets","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mtrl-sci","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We present technical details on an experimental setup that allows to measure\nmagnetic losses in electrical steel sheets and the movement of magnetic domains\non the sample surface simultaneously. The setup is suitable to investigate\ngrain oriented electrical sheets in the polarization range 0.05 T to 2.3 T and\nat excitation frequencies between 50 Hz and 4 kHz. The screened surface area is\n13 mm x 18 mm.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 22:29:56 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Pfn\u00fcr","Korbinian",""],["L\u00fcdke","Joachim",""],["Ketzler","Rainer",""],["Lindner","Morris",""],["Reimann","Timmy",""],["Wenzel","Benjamin",""],["Holzhey","Rocco",""],["Dorosinsky","Lev",""],["Weickert","Franziska",""]]}
+{"id":"2308.16345","submitter":"Taweesak Jitsuk","authors":"T. Jitsuk, A. Di Siena, M.J. Pueschel, P.W. Terry, F. Widmer, E. Poli,\n and J.S. Sarff","title":"Global Linear and Nonlinear Gyrokinetic Simulations of Tearing Modes","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.plasm-ph","license":"http://creativecommons.org/publicdomain/zero/1.0/","abstract":" To better understand the interaction of global tearing modes and\nmicroturbulence in the Madison Symmetric Torus (MST) reversed-field pinch\n(RFP), the global gyrokinetic code GENE is modified to describe tearing mode\ninstability via a shifted Maxwellian distribution consistent with experimental\nequilibria. The implementation of the shifted Maxwellian is tested and\nbenchmarked by comparisons with different codes and models. Good agreement is\nobtained in code-code and code-theory comparisons. Linear stability of tearing\nmodes of a non-reversed MST discharge is studied. A collisionality scan is\nperformed to the lowest order unstable modes ($n=5$, $n=6$) and shown to behave\nalong with theoretical scaling. The nonlinear evolution is simulated, and\nsaturation is found to arise from mode coupling and transfer of energy from the\nmost unstable tearing mode to small-scale stable modes mediated by the $m=2$\ntearing mode. The work described herein lays the foundation for nonlinear\nsimulation and analysis of the interaction of tearing modes and\ngyroradius-scale instabilities in the RFP.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 22:30:10 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Jitsuk","T.",""],["Di Siena","A.",""],["Pueschel","M. J.",""],["Terry","P. W.",""],["Widmer","F.",""],["Poli","E.",""],["Sarff","J. S.",""]]}
+{"id":"2308.16346","submitter":"Sonja Hohloch","authors":"Yannick Gullentops, Sonja Hohloch","title":"Recent examples of hypersemitoric systems and first steps towards a\n classification: a brief survey","comments":"8 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.DS math.SG nlin.SI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Hypersemitoric systems are 2-degree-of-freedom integrable systems on\n4-dimensional manifolds that have an underlying $S^1$-symmetry and no\ndegenerate singularities apart from maybe a finite number of so-called\nparabolic ones. We give a short overview of recent examples displaying various\nbifurcations and sketch a topological-combinatorial classification of the\nconnected components of fibers of hypersemitoric systems.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 22:39:59 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Gullentops","Yannick",""],["Hohloch","Sonja",""]]}
+{"id":"2308.16347","submitter":"Guozhen Lu","authors":"Lu Chen, Guozhen Lu and Maochun Zhu","title":"A sharp trace Adams' inequality in $\\mathbb{R}^{4}$ and Existence of the\n extremals","comments":"38 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.AP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Let $\\Omega\\subseteq \\mathbb{R}^{4}$ be a bounded domain with smooth boundary\n$\\partial\\Omega$. In this paper, we establish the following sharp form of the\ntrace Adams' inequality in $W^{2,2}(\\Omega)$ with\n zero mean value and zero Neumann boundary condition: \\begin{equation*}\nS({\\alpha})=\\underset{\\int_{\\Omega}udx=0,\\frac{\\partial\nu}{\\partial\\nu}|_{\\partial\\Omega}=0,\\Vert\\Delta u\\Vert_{2}\\leq{1}}{\\underset\n{u\\in{W^{2,2}(\\Omega)\\setminus\\{0\\}}}{\\sup}}\\int_{\\partial \\Omega} e^{\\alpha\nu^{2}}d\\sigma<\\infty \\end{equation*} holds if and only if $ \\alpha\\leq12\\pi^2$.\n Moreover, we prove a classification theorem for the solutions of a class of\nnonlinear boundary value problem of bi-harmonic equations on the half space\n$\\mathbb{R}^4_{+}$. With this classification result, we can show that\n$S({12\\pi^2})$ is attained by using the blow-up analysis and capacitary\nestimate. As an application, we prove a sharp trace Adams-Onofri type\ninequality in general four dimensional bounded domains with smooth boundary.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 22:40:29 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Chen","Lu",""],["Lu","Guozhen",""],["Zhu","Maochun",""]]}
+{"id":"2308.16348","submitter":"Trifce Sandev","authors":"Z. Tomovski, K. Gorska, T. Pietrzak, R. Metzler, T. Sandev","title":"Anomalous and ultraslow diffusion of a particle driven by\n power-law-correlated and distributed-order noises","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.stat-mech","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We study the generalized Langevin equation approach to anomalous diffusion\nfor a harmonic oscillator and a free particle driven by different forms of\ninternal noises, such as power-law-correlated and distributed-order noises that\nfulfil generalized versions of the fluctuation-dissipation theorem. The mean\nsquared displacement and the normalized displacement correlation function are\nderived for the different forms of the friction memory kernel. The\ncorresponding overdamped generalized Langevin equations for these cases are\nalso investigated. It is shown that such models can be used to describe\nanomalous diffusion in complex media, giving rise to subdiffusion,\nsuperdiffusion, ultraslow diffusion, strong anomaly, and other complex\ndiffusive behaviors.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 22:44:53 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Tomovski","Z.",""],["Gorska","K.",""],["Pietrzak","T.",""],["Metzler","R.",""],["Sandev","T.",""]]}
+{"id":"2308.16349","submitter":"Kilichbek Haydarov","authors":"Kilichbek Haydarov, Xiaoqian Shen, Avinash Madasu, Mahmoud Salem, Jia\n Li, Gamaleldin Elsayed, Mohamed Elhoseiny","title":"Affective Visual Dialog: A Large-Scale Benchmark for Emotional Reasoning\n Based on Visually Grounded Conversations","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We introduce Affective Visual Dialog, an emotion explanation and reasoning\ntask as a testbed for research on understanding the formation of emotions in\nvisually grounded conversations. The task involves three skills: (1)\nDialog-based Question Answering (2) Dialog-based Emotion Prediction and (3)\nAffective emotion explanation generation based on the dialog. Our key\ncontribution is the collection of a large-scale dataset, dubbed AffectVisDial,\nconsisting of 50K 10-turn visually grounded dialogs as well as concluding\nemotion attributions and dialog-informed textual emotion explanations,\nresulting in a total of 27,180 working hours. We explain our design decisions\nin collecting the dataset and introduce the questioner and answerer tasks that\nare associated with the participants in the conversation. We train and\ndemonstrate solid Affective Visual Dialog baselines adapted from\nstate-of-the-art models. Remarkably, the responses generated by our models show\npromising emotional reasoning abilities in response to visually grounded\nconversations. Our project page is available at\nhttps://affective-visual-dialog.github.io.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 22:50:32 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Haydarov","Kilichbek",""],["Shen","Xiaoqian",""],["Madasu","Avinash",""],["Salem","Mahmoud",""],["Li","Jia",""],["Elsayed","Gamaleldin",""],["Elhoseiny","Mohamed",""]]}
+{"id":"2308.16350","submitter":"Rob van Glabbeek","authors":"Rob van Glabbeek and Peter H\\\"ofner and Weiyou Wang","title":"A Lean-Congruence Format for EP-Bisimilarity","comments":"An extended abstract (all but the appendices) will appear in Proc.\n EXPRESS/SOS 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Enabling preserving bisimilarity is a refinement of strong bisimilarity,\nwhich preserves safety as well as liveness properties. To define it properly,\nlabelled transition systems needed to be upgraded with a successor relation,\ncapturing concurrency between transitions enabled in the same state. We enrich\nthe well-known De Simone format to handle inductive definitions of this\nsuccessor relation. We then establish that ep-bisimilarity is a congruence for\nthe operators, as well as lean congruence for recursion, for all (enriched) De\nSimone languages.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 22:56:54 GMT"}],"update_date":"2023-09-01","authors_parsed":[["van Glabbeek","Rob",""],["H\u00f6fner","Peter",""],["Wang","Weiyou",""]]}
+{"id":"2308.16351","submitter":"Diana Seitova","authors":"V.M. Aynutdinov, V.A. Allakhverdyan, A.D. Avrorin, A.V. Avrorin, Z.\n Barda\\v{c}ov\\'a, I.A. Belolaptikov, E.A. Bondarev, I.V. Borina, N.M. Budnev,\n V.A. Chadymov, A.S. Chepurnov, V.Y. Dik, G.V. Domogatsky, A.A. Doroshenko, R.\n Dvornick\\'y, A.N. Dyachok, Zh.-A.M. Dzhilkibaev, E. Eckerov\\'a, T.V. Elzhov,\n L. Fajt, V.N. Fomin, A.R. Gafarov, K.V. Golubkov, N.S. Gorshkov, T. I. Gress,\n K.G. Kebkal, I.V. Kharuk, E.V. Khramov, M.M. Kolbin, S.O. Koligaev, K.V.\n Konischev, A.V. Korobchenko, A.P. Koshechkin, V.A. Kozhin, M.V. Kruglov, V.F.\n Kulepov, Y.E. Lemeshev, M.B. Milenin, R.R. Mirgazov, D.V. Naumov, A.S.\n Nikolaev, D.P. Petukhov, E.N. Pliskovsky, M.I. Rozanov, E.V. Ryabov, G.B.\n Safronov, D. Seitova, B.A. Shaybonov, M.D. Shelepov, S.D. Shilkin, E.V.\n Shirokov, F. \\v{S}imkovic, A.E. Sirenko, A.V. Skurikhin, A.G. Solovjev, M.N.\n Sorokovikov, I. \\v{S}tekl, A.P. Stromakov, O.V. Suvorova, V.A. Tabolenko,\n B.B. Ulzutuev, Y.V. Yablokova, D.N. Zaborov, S.I. Zavyalov, D.Y. Zvezdov","title":"Time Calibration of the Baikal-GVD Neutrino Telescope with Atmospheric\n Muons","comments":"38th International Cosmic Ray Conference (ICRC2023)","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.IM physics.ins-det","license":"http://creativecommons.org/publicdomain/zero/1.0/","abstract":" We present a new procedure for time calibration of the Baikal-GVD neutrino\ntelescope. The track reconstruction quality depends on accurate measurements of\narrival times of Cherenkov photons. Therefore, it is crucial to achieve a high\nprecision in time calibration. For that purpose, in addition to other\ncalibration methods, we employ a new procedure using atmospheric muons\nreconstructed in a single-cluster mode. The method is based on iterative\ndetermination of effective time offsets for each optical module. This paper\nfocuses on the results of the iterative reconstruction procedure with time\noffsets from the previous iteration and the verification of the method\ndeveloped. The theoretical muon calibration precision is estimated to be around\n1.5-1.6ns.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 22:57:41 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Aynutdinov","V. M.",""],["Allakhverdyan","V. A.",""],["Avrorin","A. D.",""],["Avrorin","A. V.",""],["Barda\u010dov\u00e1","Z.",""],["Belolaptikov","I. A.",""],["Bondarev","E. A.",""],["Borina","I. V.",""],["Budnev","N. M.",""],["Chadymov","V. A.",""],["Chepurnov","A. S.",""],["Dik","V. Y.",""],["Domogatsky","G. V.",""],["Doroshenko","A. A.",""],["Dvornick\u00fd","R.",""],["Dyachok","A. N.",""],["Dzhilkibaev","Zh. -A. M.",""],["Eckerov\u00e1","E.",""],["Elzhov","T. V.",""],["Fajt","L.",""],["Fomin","V. N.",""],["Gafarov","A. R.",""],["Golubkov","K. V.",""],["Gorshkov","N. S.",""],["Gress","T. I.",""],["Kebkal","K. G.",""],["Kharuk","I. V.",""],["Khramov","E. V.",""],["Kolbin","M. M.",""],["Koligaev","S. O.",""],["Konischev","K. V.",""],["Korobchenko","A. V.",""],["Koshechkin","A. P.",""],["Kozhin","V. A.",""],["Kruglov","M. V.",""],["Kulepov","V. F.",""],["Lemeshev","Y. E.",""],["Milenin","M. B.",""],["Mirgazov","R. R.",""],["Naumov","D. V.",""],["Nikolaev","A. S.",""],["Petukhov","D. P.",""],["Pliskovsky","E. N.",""],["Rozanov","M. I.",""],["Ryabov","E. V.",""],["Safronov","G. B.",""],["Seitova","D.",""],["Shaybonov","B. A.",""],["Shelepov","M. D.",""],["Shilkin","S. D.",""],["Shirokov","E. V.",""],["\u0160imkovic","F.",""],["Sirenko","A. E.",""],["Skurikhin","A. V.",""],["Solovjev","A. G.",""],["Sorokovikov","M. N.",""],["\u0160tekl","I.",""],["Stromakov","A. P.",""],["Suvorova","O. V.",""],["Tabolenko","V. A.",""],["Ulzutuev","B. B.",""],["Yablokova","Y. V.",""],["Zaborov","D. N.",""],["Zavyalov","S. I.",""],["Zvezdov","D. Y.",""]]}
+{"id":"2308.16352","submitter":"Boqun Zhao","authors":"Boqun Zhao, Chongjun Ouyang, Xingqi Zhang and Yuanwei Liu","title":"Downlink and Uplink NOMA-ISAC with Signal Alignment","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IT math.IT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Integrated Sensing and Communications (ISAC) surpasses the conventional\nfrequency-division sensing and communications (FDSAC) in terms of spectrum,\nenergy, and hardware efficiency, with potential for greater enhancement through\nintegration of NOMA and signal alignment techniques. Leveraging these\nadvantages, this paper proposes a multiple-input multiple-output-NOMA-ISAC\nframework with signal alignment and thoroughly analyzes its performance for\nboth downlink and uplink. 1) The downlink ISAC is investigated under three\ndifferent precoding designs: sensing-centric (S-C) design,\ncommunications-centric (C-C) design, and Pareto optimal design. 2) For the\nuplink case, two scenarios are investigated: S-C design and C-C design, based\non the interference cancellation order of the communication signal and the\nsensing signal. In each of these scenarios, key performance metrics including\nsensing rate (SR), communication rate (CR), and outage probability are\ninvestigated. For a deeper understanding, the asymptotic performance of the\nsystem in the high signal-to-noise ratio (SNR) region is also explored, with a\nfocus on the high-SNR slope and diversity order. Finally, the SR-CR rate\nregions achieved by ISAC and FDSAC are studied. Numerical results reveal that\nin both downlink and uplink cases, ISAC outperforms FDSAC in terms of sensing\nand communications performance and is capable of achieving a broader rate\nregion, clearly showcasing its superiority over the conventional FDSAC.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 22:59:42 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zhao","Boqun",""],["Ouyang","Chongjun",""],["Zhang","Xingqi",""],["Liu","Yuanwei",""]]}
+{"id":"2308.16353","submitter":"Andrew McNutt","authors":"Nicolas Kruchten, Andrew M. McNutt, Michael J. McGuffin","title":"Metrics-Based Evaluation and Comparison of Visualization Notations","comments":"To appear at IEEE VIS 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.HC","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" A visualization notation is a recurring pattern of symbols used to author\nspecifications of visualizations, from data transformation to visual mapping.\nProgrammatic notations use symbols defined by grammars or domain-specific\nlanguages (e.g., ggplot2, dplyr, Vega-Lite) or libraries (e.g., Matplotlib,\nPandas). Designers and prospective users of grammars and libraries often\nevaluate visualization notations by inspecting galleries of examples. While\nsuch collections demonstrate usage and expressiveness, their construction and\nevaluation are usually ad hoc, making comparisons of different notations\ndifficult. More rarely, experts analyze notations via usability heuristics,\nsuch as the Cognitive Dimensions of Notations framework. These analyses, akin\nto structured close readings of text, can reveal design deficiencies, but place\na burden on the expert to simultaneously consider many facets of often complex\nsystems. To alleviate these issues, we introduce a metrics-based approach to\nusability evaluation and comparison of notations in which metrics are computed\nfor a gallery of examples across a suite of notations. While applicable to any\nvisualization domain, we explore the utility of our approach via a case study\nconsidering statistical graphics that explores 40 visualizations across 9\nwidely used notations. We facilitate the computation of appropriate metrics and\nanalysis via a new tool called NotaScope. We gathered feedback via interviews\nwith authors or maintainers of prominent charting libraries (n=6). We find that\nthis approach is a promising way to formalize, externalize, and extend\nevaluations and comparisons of visualization notations.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 23:00:29 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Kruchten","Nicolas",""],["McNutt","Andrew M.",""],["McGuffin","Michael J.",""]]}
+{"id":"2308.16354","submitter":"Wenyi Wu","authors":"Wenyi Wu, Karim Bouyarmane, Ismail Tutar","title":"Catalog Phrase Grounding (CPG): Grounding of Product Textual Attributes\n in Product Images for e-commerce Vision-Language Applications","comments":"KDD 2022 Workshop on First Content Understanding and Generation for\n e-Commerce","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We present Catalog Phrase Grounding (CPG), a model that can associate product\ntextual data (title, brands) into corresponding regions of product images\n(isolated product region, brand logo region) for e-commerce vision-language\napplications. We use a state-of-the-art modulated multimodal transformer\nencoder-decoder architecture unifying object detection and phrase-grounding. We\ntrain the model in self-supervised fashion with 2.3 million image-text pairs\nsynthesized from an e-commerce site. The self-supervision data is annotated\nwith high-confidence pseudo-labels generated with a combination of teacher\nmodels: a pre-trained general domain phrase grounding model (e.g. MDETR) and a\nspecialized logo detection model. This allows CPG, as a student model, to\nbenefit from transfer knowledge from these base models combining general-domain\nknowledge and specialized knowledge. Beyond immediate catalog phrase grounding\ntasks, we can benefit from CPG representations by incorporating them as ML\nfeatures into downstream catalog applications that require deep semantic\nunderstanding of products. Our experiments on product-brand matching, a\nchallenging e-commerce application, show that incorporating CPG representations\ninto the existing production ensemble system leads to on average 5% recall\nimprovement across all countries globally (with the largest lift of 11% in a\nsingle country) at fixed 95% precision, outperforming other alternatives\nincluding a logo detection teacher model and ResNet50.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 23:02:26 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Wu","Wenyi",""],["Bouyarmane","Karim",""],["Tutar","Ismail",""]]}
+{"id":"2308.16355","submitter":"Yunguan Fu","authors":"Yunguan Fu, Yiwen Li, Shaheer U Saeed, Matthew J Clarkson, Yipeng Hu","title":"A Recycling Training Strategy for Medical Image Segmentation with\n Diffusion Denoising Models","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"eess.IV cs.CV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Denoising diffusion models have found applications in image segmentation by\ngenerating segmented masks conditioned on images. Existing studies\npredominantly focus on adjusting model architecture or improving inference such\nas test-time sampling strategies. In this work, we focus on training strategy\nimprovements and propose a novel recycling method. During each training step, a\nsegmentation mask is first predicted given an image and a random noise. This\npredicted mask, replacing the conventional ground truth mask, is used for\ndenoising task during training. This approach can be interpreted as aligning\nthe training strategy with inference by eliminating the dependence on ground\ntruth masks for generating noisy samples. Our proposed method significantly\noutperforms standard diffusion training, self-conditioning, and existing\nrecycling strategies across multiple medical imaging data sets: muscle\nultrasound, abdominal CT, prostate MR, and brain MR. This holds true for two\nwidely adopted sampling strategies: denoising diffusion probabilistic model and\ndenoising diffusion implicit model. Importantly, existing diffusion models\noften display a declining or unstable performance during inference, whereas our\nnovel recycling consistently enhances or maintains performance. Furthermore, we\nshow for the first time that, under a fair comparison with the same network\narchitectures and computing budget, the proposed recycling-based diffusion\nmodels achieved on-par performance with non-diffusion-based supervised\ntraining. This paper summarises these quantitative results and discusses their\nvalues, with a fully reproducible JAX-based implementation, released at\nhttps://github.com/mathpluscode/ImgX-DiffSeg.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 23:03:49 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Fu","Yunguan",""],["Li","Yiwen",""],["Saeed","Shaheer U",""],["Clarkson","Matthew J",""],["Hu","Yipeng",""]]}
+{"id":"2308.16356","submitter":"Nobuyoshi Ohta","authors":"Chiang-Mei Chen, Yi Chen, Akihiro Ishibashi and Nobuyoshi Ohta","title":"Quantum Improved Regular Kerr Black Holes","comments":"15 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-th gr-qc","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We study the quantum improvement of Kerr black holes with mass-dependent\nscale identifications in asymptotically safe gravity. We find that a physically\nsensible identification can only be a function of $Mr$ and the area\n$A=4\\pi(r^2+a^2)$ where $M$ is the mass of the black hole and $a$ is an angular\nmomentum parameter. We then discuss various properties of the rotating quantum\nblack holes for a simple choice of the identification. We show that the\nresulting regular rotating black holes have the following nice properties: (i)\nadmitting a consistent black hole thermodynamics at the horizon, (ii) resolving\nthe ring singularity, (iii) partially eliminating closed time-like curves\npresent in the classical Kerr black holes.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 23:06:27 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Chen","Chiang-Mei",""],["Chen","Yi",""],["Ishibashi","Akihiro",""],["Ohta","Nobuyoshi",""]]}
+{"id":"2308.16357","submitter":"Quoc Vo","authors":"Quoc Vo, and Tuan Tran","title":"Droplet jumping by modulated electrowetting","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.flu-dyn","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We investigate jumping of sessile droplets from a solid surface in ambient\noil using modulated electrowetting actuation. We focus on the case in which the\nelectrowetting effect is activated to cause droplet spreading and then\ndeactivated exactly at the moment the droplet reaches its maximum deformation.\nBy systematically varying the control parameters such as the droplet radius,\nliquid viscosity, and applied voltage, we provide detailed characterisation of\nthe resulting behaviours including a comprehensive phase diagram separating\ndetachment from non-detachment behaviours, as well as how the detach velocity\nand detach time, i.e, duration leading to detachment, depend on the control\nparameters. We then construct a theoretical model predicting the detachment\ncondition using energy conservation principles. We finally validate our\ntheoretical analysis by experimental data obtained in the explored ranges of\nthe control parameters.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 23:08:36 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Vo","Quoc",""],["Tran","Tuan",""]]}
+{"id":"2308.16358","submitter":"Zihan Lin","authors":"Zihan Lin, Carlos Monton, Stefan Bringuier, Gregory Sinclair,\n Guangming Cheng, Eduardo Marin, Zachary Bergstrom, Dmitry Rudakov, \\v{Z}ana\n Popovi\\'c, Ulises Losada, Igor Bykov, Evan T. Ostrowski, Shota Abe, Nan Yao,\n Bruce E. Koel, and Tyler Abrams","title":"Investigation of W-SiC compositionally graded films as a divertor\n material","comments":"13 pages, 9 figures, 1 table","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.plasm-ph cond-mat.mtrl-sci","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" W-SiC composite material is a promising alternative due to the low neutron\nactivation, low impurity radiation, and ductility of SiC at high temperatures\nwhile leveraging the high erosion resistance of the W armor. Additionally, W\nand SiC have high compatibility given their similar thermal expansion rates.\nThe present study addresses the synthesis and performance of compositionally\ngraded W-SiC films fabricated by pulsed-DC magnetron sputtering. Compositional\ngradients were characterized using transmission electron microscopy (TEM) and\nenergy-dispersive X-ray spectroscopy (EDS), and crystallographic information\nwas obtained using electron diffraction and X-ray diffraction (XRD). Samples\nwere exposed to L-mode deuterium plasma discharges in the DIII-D tokamak using\nthe Divertor Material Evaluation System (DiMES). Post-mortem characterizations\nwere performed using scanning electron microscopy (SEM) and XRD. Electron\ndiffraction and XRD showed that the compositionally graded W-SiC films were\ncomposed of polycrystalline W and amorphous SiC with amorphous W+SiC\ninterlayers. No macroscopic delamination or microstructural changes were\nobserved under mild exposure conditions. This study serves as a preliminary\nexamination of W-SiC compositionally graded composites as a potential candidate\ndivertor material in future tokamak devices.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 23:08:57 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Lin","Zihan",""],["Monton","Carlos",""],["Bringuier","Stefan",""],["Sinclair","Gregory",""],["Cheng","Guangming",""],["Marin","Eduardo",""],["Bergstrom","Zachary",""],["Rudakov","Dmitry",""],["Popovi\u0107","\u017dana",""],["Losada","Ulises",""],["Bykov","Igor",""],["Ostrowski","Evan T.",""],["Abe","Shota",""],["Yao","Nan",""],["Koel","Bruce E.",""],["Abrams","Tyler",""]]}
+{"id":"2308.16359","submitter":"Ari Markowitz","authors":"Ari Markowitz","title":"Recognition and constructive membership for purely hyperbolic groups\n acting on trees","comments":"19 pages, 12 figures, 3 tables","journal-ref":null,"doi":null,"report-no":null,"categories":"math.GR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We present an algorithm which takes as input a finite set $X$ of\nautomorphisms of a simplicial tree, and outputs a generating set $X'$ of\n$\\langle X \\rangle$ such that either $\\langle X \\rangle$ is purely hyperbolic\nand $X'$ is a free basis of $\\langle X \\rangle$, or $X'$ contains a non-trivial\nelliptic element. As a special case, the algorithm decides whether a finitely\ngenerated group acting on a locally finite tree is discrete and free. This\nalgorithm, which is based on Nielsen's reduction method, works by repeatedly\napplying Nielsen transformations to $X$ to minimise the generators of $X'$ with\nrespect to a given pre-well-ordering. We use this algorithm to solve the\nconstructive membership problem for finitely generated purely hyperbolic\nautomorphism groups of trees. We provide a Magma implementation of these\nalgorithms, and report its performance.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 23:19:07 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Markowitz","Ari",""]]}
+{"id":"2308.16360","submitter":"Yuhang Zhou","authors":"Yuhang Zhou, Xuan Lu, Ge Gao, Qiaozhu Mei, Wei Ai","title":"Emoji Promotes Developer Participation and Issue Resolution on GitHub","comments":"12 pages, 5 figures. To be published in the 18th International AAAI\n Conference on Web and Social Media (ICWSM 2024)","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CY cs.HC cs.LG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Although remote working is increasingly adopted during the pandemic, many are\nconcerned by the low-efficiency in the remote working. Missing in text-based\ncommunication are non-verbal cues such as facial expressions and body language,\nwhich hinders the effective communication and negatively impacts the work\noutcomes. Prevalent on social media platforms, emojis, as alternative\nnon-verbal cues, are gaining popularity in the virtual workspaces well. In this\npaper, we study how emoji usage influences developer participation and issue\nresolution in virtual workspaces. To this end, we collect GitHub issues for a\none-year period and apply causal inference techniques to measure the causal\neffect of emojis on the outcome of issues, controlling for confounders such as\nissue content, repository, and author information. We find that emojis can\nsignificantly reduce the resolution time of issues and attract more user\nparticipation. We also compare the heterogeneous effect on different types of\nissues. These findings deepen our understanding of the developer communities,\nand they provide design implications on how to facilitate interactions and\nbroaden developer participation.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 23:26:33 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zhou","Yuhang",""],["Lu","Xuan",""],["Gao","Ge",""],["Mei","Qiaozhu",""],["Ai","Wei",""]]}
+{"id":"2308.16361","submitter":"Haochen Zhang","authors":"Haochen Zhang, Yuyang Dong, Chuan Xiao, Masafumi Oyamada","title":"Large Language Models as Data Preprocessors","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AI cs.DB","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Large Language Models (LLMs), typified by OpenAI's GPT series and Meta's\nLLaMA variants, have marked a significant advancement in artificial\nintelligence. Trained on vast amounts of text data, LLMs are capable of\nunderstanding and generating human-like text across a diverse range of topics.\nThis study expands on the applications of LLMs, exploring their potential in\ndata preprocessing, a critical stage in data mining and analytics applications.\nWe delve into the applicability of state-of-the-art LLMs such as GPT-3.5,\nGPT-4, and Vicuna-13B for error detection, data imputation, schema matching,\nand entity matching tasks. Alongside showcasing the inherent capabilities of\nLLMs, we highlight their limitations, particularly in terms of computational\nexpense and inefficiency. We propose an LLM-based framework for data\npreprocessing, which integrates cutting-edge prompt engineering techniques,\ncoupled with traditional methods like contextualization and feature selection,\nto improve the performance and efficiency of these models. The effectiveness of\nLLMs in data preprocessing is evaluated through an experimental study spanning\n12 datasets. GPT-4 emerged as a standout, achieving 100\\% accuracy or F1 score\non 4 datasets, suggesting LLMs' immense potential in these tasks. Despite\ncertain limitations, our study underscores the promise of LLMs in this domain\nand anticipates future developments to overcome current hurdles.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 23:28:43 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zhang","Haochen",""],["Dong","Yuyang",""],["Xiao","Chuan",""],["Oyamada","Masafumi",""]]}
+{"id":"2308.16362","submitter":"Lei Zhao","authors":"Daoli Zhu and Lei Zhao and Shuzhong Zhang","title":"A Unified Analysis for the Subgradient Methods Minimizing Composite\n Nonconvex, Nonsmooth and Non-Lipschitz Functions","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.OC cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper we propose a proximal subgradient method (Prox-SubGrad) for\nsolving nonconvex and nonsmooth optimization problems without assuming\nLipschitz continuity conditions. A number of subgradient upper bounds and their\nrelationships are presented. By means of these upper bounding conditions, we\nestablish some uniform recursive relations for the Moreau envelopes for weakly\nconvex optimization. This uniform scheme simplifies and unifies the proof\nschemes to establish rate of convergence for Prox-SubGrad without assuming\nLipschitz continuity. We present a novel convergence analysis in this context.\nFurthermore, we propose some new stochastic subgradient upper bounding\nconditions and establish convergence and iteration complexity rates for the\nstochastic subgradient method (Sto-SubGrad) to solve non-Lipschitz and\nnonsmooth stochastic optimization problems. In particular, for both\ndeterministic and stochastic subgradient methods on weakly convex optimization\nproblems without Lipschitz continuity, under any of the subgradient upper\nbounding conditions to be introduced in the paper, we show that $O(1/\\sqrt{T})$\nconvergence rate holds in terms of the square of gradient of the Moreau\nenvelope function, which further improves to be $O(1/{T})$ if, in addition, the\nuniform KL condition with exponent $1/2$ holds.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 23:34:11 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zhu","Daoli",""],["Zhao","Lei",""],["Zhang","Shuzhong",""]]}
+{"id":"2308.16363","submitter":"Thomas Gebhart","authors":"Thomas Gebhart and Russell Funk","title":"A Mathematical Framework for Citation Disruption","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SI cs.DL","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Many theories of scientific and technological progress imagine science as an\niterative, developmental process periodically interrupted by innovations which\ndisrupt and restructure the status quo. Due to the immense societal value\ncreated by these disruptive scientific and technological innovations,\naccurately operationalizing this perspective into quantifiable terms represents\na key challenge for researchers seeking to understand the history and\nmechanisms underlying scientific and technological progress. Researchers have\nrecently proposed a number of quantitative measures that seek to quantify the\nextent to which works in science and technology are disruptive with respect to\ntheir scientific context. While these disruption measures show promise in their\nability to quantify potentially disruptive works of science and technology,\ntheir definitions are bespoke to the science of science and lack a broader\ntheoretical framework, obscuring their interrelationships and limiting their\nadoption within broader network science paradigms. We propose a mathematical\nframework for conceptualizing and measuring disruptive scientific contributions\nwithin citation networks through the lens of network centrality, and formally\nrelate the CD Index disruption measure and its variants to betweenness\ncentrality. By reinterpreting disruption through the lens of centrality, we\nunify a number of existing citation-based disruption measures while\nsimultaneously providing natural generalizations which enjoy empirical and\ncomputational efficiencies. We validate these theoretical observations by\ncomputing a variety of disruption measures on real citation data and find that\ncomputing these centrality-based disruption measures over ego networks of\nincreasing radius results in better discernment of award-winning scientific\ninnovations relative to conventional disruption metrics which rely on local\ncitation context alone.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 23:34:47 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Gebhart","Thomas",""],["Funk","Russell",""]]}
+{"id":"2308.16364","submitter":"Matija Franklin","authors":"Matija Franklin, Philip Moreira Tomei, Rebecca Gorman","title":"Strengthening the EU AI Act: Defining Key Terms on AI Manipulation","comments":"10 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AI","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The European Union's Artificial Intelligence Act aims to regulate\nmanipulative and harmful uses of AI, but lacks precise definitions for key\nconcepts. This paper provides technical recommendations to improve the Act's\nconceptual clarity and enforceability. We review psychological models to define\n\"personality traits,\" arguing the Act should protect full \"psychometric\nprofiles.\" We urge expanding \"behavior\" to include \"preferences\" since\npreferences causally influence and are influenced by behavior. Clear\ndefinitions are provided for \"subliminal,\" \"manipulative,\" and \"deceptive\"\ntechniques, considering incentives, intent, and covertness. We distinguish\n\"exploiting individuals\" from \"exploiting groups,\" emphasising different policy\nneeds. An \"informed decision\" is defined by four facets: comprehension,\naccurate information, no manipulation, and understanding AI's influence. We\ncaution the Act's therapeutic use exemption given the lack of regulation of\ndigital therapeutics by the EMA. Overall, the recommendations strengthen\ndefinitions of vague concepts in the EU AI Act, enhancing precise applicability\nto regulate harmful AI manipulation.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 23:42:07 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Franklin","Matija",""],["Tomei","Philip Moreira",""],["Gorman","Rebecca",""]]}
+{"id":"2308.16365","submitter":"Emily Heath","authors":"Enrique Gomez-Leos, Emily Heath, Alex Parker, Coy Schwieder, Shira\n Zerbib","title":"New bounds on $f(n,5,8)$","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Let $f(n,p,q)$ denote the minimum number of colors needed to color the edges\nof $K_n$ so that every copy of $K_p$ receives at least $q$ distinct colors. In\nthis note, we show $\\frac{6}{7}(n-1) \\leq f(n,5,8) \\leq n + o(n)$. The upper\nbound is proven using the \"conflict-free hypergraph matchings method\" which was\nrecently used by Mubayi and Joos to prove $f(n,4,5) = \\frac{5}{6}n + o(n)$.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 23:44:49 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Gomez-Leos","Enrique",""],["Heath","Emily",""],["Parker","Alex",""],["Schwieder","Coy",""],["Zerbib","Shira",""]]}
+{"id":"2308.16366","submitter":"Alexis Langlois-R\\'emillard","authors":"Marcelo De Martino, Alexis Langlois-R\\'emillard, Roy Oste","title":"The double dihedral Dunkl total angular momentum algebra","comments":"34 pages, 3 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"math.RT","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The Dunkl deformation of the Dirac operator is part of a realisation of an\northosymplectic Lie superalgebra inside the tensor product of a rational\nCherednik algebra and a Clifford algebra. The Dunkl total angular momentum\nalgebra (TAMA) occurs as the supercentraliser, or dual partner, of this Lie\nsuperalgebra. In this paper, we consider the case when the reflection group\nassociated with the Dunkl operators is a product of two dihedral groups acting\non a four-dimensional Euclidean space. We introduce a subalgebra of the total\nangular momentum algebra that admits a triangular decomposition and, in analogy\nto the celebrated theory of semisimple Lie algebras, we use this triangular\nsubalgebra to give precise necessary conditions that a finite-dimensional\nirreducible representation must obey, in terms of weights. Furthermore, we\nconstruct a basis for representations of the TAMA with explicit actions.\nExamples of these modules occur in the kernel of the Dunkl--Dirac operator in\nthe context of deformations of Howe dual pairs.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 23:47:57 GMT"}],"update_date":"2023-09-01","authors_parsed":[["De Martino","Marcelo",""],["Langlois-R\u00e9millard","Alexis",""],["Oste","Roy",""]]}
+{"id":"2308.16367","submitter":"Choonkil Park","authors":"Amin Hosseini, Choonkil Park","title":"Automatic continuity of new generalized derivations","comments":"15 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.FA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Let $\\mathcal{A}$ and $\\mathcal{B}$ be two algebras and let $n$ be a positive\ninteger. A linear mapping $D:\\mathcal{A} \\rightarrow \\mathcal{B}$ is called a\n\\emph{strongly generalized derivation of order $n$} if there exist families of\nlinear mappings $\\{E_k:\\mathcal{A} \\rightarrow \\mathcal{B}\\}_{k = 1}^{n}$,\n$\\{F_k:\\mathcal{A} \\rightarrow \\mathcal{B}\\}_{k = 1}^{n}$, $\\{G_k:\\mathcal{A}\n\\rightarrow \\mathcal{B}\\}_{k = 1}^{n}$ and $\\{H_k:\\mathcal{A} \\rightarrow\n\\mathcal{B}\\}_{k = 1}^{n}$ which satisfy $D(ab) = \\sum_{k = 1}^{n}\\left[E_k(a)\nF_k(b) + G_k(a)H_k(b)\\right]$ for all $a, b \\in \\mathcal{A}$. The purpose of\nthis article is to study the automatic continuity of such derivations on Banach\nalgebras and $C^{\\ast}$-algebras.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 23:56:34 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Hosseini","Amin",""],["Park","Choonkil",""]]}
+{"id":"2308.16368","submitter":"Daniel E. Ochoa","authors":"Daniel E. Ochoa, Nicolas Espitia, Jorge I. Poveda","title":"Prescribed-Time Control in Switching Systems with Resets: A Hybrid\n Dynamical Systems Approach","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.OC","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We consider the problem of achieving prescribed-time stability (PT-S) in a\nclass of hybrid dynamical systems that incorporate switching nonlinear\ndynamics, exogenous inputs, and resets. By \"prescribed-time stability\", we\nrefer to the property of having the states converge to a particular compact set\nof interest before a given time defined a priori by the user. We focus on\ndynamical systems that achieve this property via time-varying gains. For\ncontinuous-time systems, this approach has received significant attention in\nrecent years, with various applications in control, optimization, and\nestimation problems. However, its extensions beyond continuous-time systems\nhave been limited. This gap motivates this paper, which introduces a novel\nclass of switching conditions for switching systems with resets that\nincorporate time-varying gains, ensuring the PT-S property even in the presence\nof unstable modes. The analysis leverages tools from hybrid dynamical system's\ntheory, and a contraction-dilation property that is established for the hybrid\ntime domains of the solutions of the system. We present the model and main\nresults in a general framework and subsequently apply them to three novel\napplications: (a) PT regulation of switching plants with no common Lyapunov\nfunctions; (b) PT control of dynamic plants with uncertainty and intermittent\nfeedback; and (c) PT decision-making in non-cooperative switching games via\nhybrid Nash seeking dynamics.\n","versions":[{"version":"v1","created":"Wed, 30 Aug 2023 23:56:38 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Ochoa","Daniel E.",""],["Espitia","Nicolas",""],["Poveda","Jorge I.",""]]}
+{"id":"2308.16369","submitter":"Amey Agrawal","authors":"Amey Agrawal, Ashish Panwar, Jayashree Mohan, Nipun Kwatra, Bhargav S.\n Gulavani, Ramachandran Ramjee","title":"SARATHI: Efficient LLM Inference by Piggybacking Decodes with Chunked\n Prefills","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.DC","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Large Language Model (LLM) inference consists of two distinct phases -\nprefill phase which processes the input prompt and decode phase which generates\noutput tokens autoregressively. While the prefill phase effectively saturates\nGPU compute at small batch sizes, the decode phase results in low compute\nutilization as it generates one token at a time per request. The varying\nprefill and decode times also lead to imbalance across micro-batches when using\npipeline parallelism, resulting in further inefficiency due to bubbles.\n We present SARATHI to address these challenges. SARATHI employs\nchunked-prefills, which splits a prefill request into equal sized chunks, and\ndecode-maximal batching, which constructs a batch using a single prefill chunk\nand populates the remaining slots with decodes. During inference, the prefill\nchunk saturates GPU compute, while the decode requests 'piggyback' and cost up\nto an order of magnitude less compared to a decode-only batch. Chunked-prefills\nallows constructing multiple decode-maximal batches from a single prefill\nrequest, maximizing coverage of decodes that can piggyback. Furthermore, the\nuniform compute design of these batches ameliorates the imbalance between\nmicro-batches, significantly reducing pipeline bubbles.\n Our techniques yield significant improvements in inference performance across\nmodels and hardware. For the LLaMA-13B model on A6000 GPU, SARATHI improves\ndecode throughput by up to 10x, and accelerates end-to-end throughput by up to\n1.33x. For LLaMa-33B on A100 GPU, we achieve 1.25x higher end-to-end-throughput\nand up to 4.25x higher decode throughput. When used with pipeline parallelism\non GPT-3, SARATHI reduces bubbles by 6.29x, resulting in an end-to-end\nthroughput improvement of 1.91x.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 00:03:02 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Agrawal","Amey",""],["Panwar","Ashish",""],["Mohan","Jayashree",""],["Kwatra","Nipun",""],["Gulavani","Bhargav S.",""],["Ramjee","Ramachandran",""]]}
+{"id":"2308.16370","submitter":"Qingzhi Ma","authors":"Qingzhi Ma","title":"SieveJoin: Boosting Multi-Way Joins with Reusable Bloom Filters","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DB","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Improving data systems' performance for join operations has long been an\nissue of great importance. More recently, a lot of focus has been devoted to\nmulti-way join performance and especially on reducing the negative impact of\nproducing intermediate tuples, which in the end do not make it in the final\nresult. We contribute a new multi-way join algorithm, coined SieveJoin, which\nextends the well-known Bloomjoin algorithm to multi-way joins and achieves\nstate-of-the-art performance in terms of join query execution efficiency.\nSieveJoin's salient novel feature is that it allows the propagation of Bloom\nfilters in the join path, enabling the system to `stop early' and eliminate\nuseless intermediate join results. The key design objective of SieveJoin is to\nefficiently `learn' the join results, based on Bloom filters, with negligible\nmemory overheads. We discuss the bottlenecks in delaying multi-way joins, and\nhow Bloom filters are used to remove the generation of unnecessary intermediate\njoin results. We provide a detailed experimental evaluation using various\ndatasets, against a state-of-the-art column-store database and a multi-way\nworst-case optimal join algorithm, showcasing SieveJoin's gains in terms of\nresponse time.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 00:13:06 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Ma","Qingzhi",""]]}
+{"id":"2308.16371","submitter":"Michael Cuffaro","authors":"Michael E. Cuffaro","title":"The Measurement Problem Is a Feature, Not a Bug -- Schematising the\n Observer as a Postulate and the Quantum-Mechanical Concept of an Open System\n on an Informational, or (neo-)Bohrian, Approach","comments":"20 pages (including references), 4 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph physics.hist-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" I flesh out the sense in which the informational approach to interpreting\nquantum mechanics, as defended by Pitowsky and Bub and lately by a number of\nother authors, is (neo-)Bohrian. I argue that on this approach, quantum\nmechanics represents what Bohr called a \"natural generalisation of the ordinary\ncausal description\" in the sense that the idea (which philosophers of science\nlike Stein have argued for on the grounds of practical necessity), that\nunderstanding a theory as a theory of physics requires that we be able to\n\"schematise the observer\" within it, is elevated in quantum mechanics to the\nlevel of a postulate. I argue that the approach's central concern is with the\nmethodological question of how to assign physical properties to what one takes\nto be a system in a given experimental context, rather than the metaphysical\nquestion of what a given state vector represents independently of any context,\nand I show how the quantum generalisation of the concept of an open system may\nbe used to assuage Einstein's complaint that the orthodox approach to quantum\nmechanics runs afoul of the supposedly fundamental methodological requirement\nto the effect that one must always be able, according to Einstein, to treat\nspatially separated systems as isolated from one another.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 00:19:04 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Cuffaro","Michael E.",""]]}
+{"id":"2308.16372","submitter":"Qian Zhang","authors":"Qian Zhang, Chenxi Wu, Adar Kahana, Youngeun Kim, Yuhang Li and George\n Em Karniadakis, Priyadarshini Panda","title":"Artificial to Spiking Neural Networks Conversion for Scientific Machine\n Learning","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.NE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We introduce a method to convert Physics-Informed Neural Networks (PINNs),\ncommonly used in scientific machine learning, to Spiking Neural Networks\n(SNNs), which are expected to have higher energy efficiency compared to\ntraditional Artificial Neural Networks (ANNs). We first extend the calibration\ntechnique of SNNs to arbitrary activation functions beyond ReLU, making it more\nversatile, and we prove a theorem that ensures the effectiveness of the\ncalibration. We successfully convert PINNs to SNNs, enabling computational\nefficiency for diverse regression tasks in solving multiple differential\nequations, including the unsteady Navier-Stokes equations. We demonstrate great\ngains in terms of overall efficiency, including Separable PINNs (SPINNs), which\naccelerate the training process. Overall, this is the first work of this kind\nand the proposed method achieves relatively good accuracy with low spike rates.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 00:21:27 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zhang","Qian",""],["Wu","Chenxi",""],["Kahana","Adar",""],["Kim","Youngeun",""],["Li","Yuhang",""],["Karniadakis","George Em",""],["Panda","Priyadarshini",""]]}
+{"id":"2308.16373","submitter":"Panpan Ren","authors":"Zhongmin Qian, Panpan Ren, Feng-Yu Wang","title":"Entropy Estimate for Degenerate SDEs with Applications to Nonlinear\n Kinetic Fokker-Planck Equations","comments":"23 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.PR","license":"http://creativecommons.org/publicdomain/zero/1.0/","abstract":" The relative entropy for two different degenerate diffusion processes is\nestimated by using the Wasserstein distance of initial distributions and the\ndifference between coefficients. As applications, the entropy cost inequality\nand exponential ergodicity in entropy are derived for distribution dependent\nstochastic Hamiltonian systems associated with nonlinear kinetic Fokker Planck\nequations.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 00:21:58 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Qian","Zhongmin",""],["Ren","Panpan",""],["Wang","Feng-Yu",""]]}
+{"id":"2308.16374","submitter":"Tim Gorichanaz","authors":"Tim Gorichanaz","title":"Accused: How students respond to allegations of using ChatGPT on\n assessments","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.HC","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" This study explores student responses to allegations of cheating using\nChatGPT, a popular software platform that can be used to generate grammatical\nand broadly correct text on virtually any topic. Forty-nine posts and the\nensuing discussions were collected from Reddit, an online discussion forum, in\nwhich students shared their experiences of being accused (the majority falsely)\nand discussed how to navigate their situations. A thematic analysis was\nconducted with this material, and five themes were discerned: a legalistic\nstance, involving argument strategy and evidence gathering; the societal role\nof higher education as a high-stakes gatekeeper; the vicissitudes of trust in\nstudents vs. technology; questions of what constitutes cheating; and the need\nto rethink assessment. The findings from this study will help instructors and\ninstitutions to create more meaningful assessments in the age of AI and develop\nguidelines for student use of ChatGPT and other AI tools.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 00:23:44 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Gorichanaz","Tim",""]]}
+{"id":"2308.16375","submitter":"Xueqi Cheng","authors":"Yi Zhang, Yuying Zhao, Zhaoqing Li, Xueqi Cheng, Yu Wang, Olivera\n Kotevska, Philip S. Yu, Tyler Derr","title":"A Survey on Privacy in Graph Neural Networks: Attacks, Preservation, and\n Applications","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI cs.CR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Graph Neural Networks (GNNs) have gained significant attention owing to their\nability to handle graph-structured data and the improvement in practical\napplications. However, many of these models prioritize high utility\nperformance, such as accuracy, with a lack of privacy consideration, which is a\nmajor concern in modern society where privacy attacks are rampant. To address\nthis issue, researchers have started to develop privacy-preserving GNNs.\nDespite this progress, there is a lack of a comprehensive overview of the\nattacks and the techniques for preserving privacy in the graph domain. In this\nsurvey, we aim to address this gap by summarizing the attacks on graph data\naccording to the targeted information, categorizing the privacy preservation\ntechniques in GNNs, and reviewing the datasets and applications that could be\nused for analyzing/solving privacy issues in GNNs. We also outline potential\ndirections for future research in order to build better privacy-preserving\nGNNs.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 00:31:08 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zhang","Yi",""],["Zhao","Yuying",""],["Li","Zhaoqing",""],["Cheng","Xueqi",""],["Wang","Yu",""],["Kotevska","Olivera",""],["Yu","Philip S.",""],["Derr","Tyler",""]]}
+{"id":"2308.16376","submitter":"Dongang Wang","authors":"Lei Bai and Dongang Wang and Michael Barnett and Mariano Cabezas and\n Weidong Cai and Fernando Calamante and Kain Kyle and Dongnan Liu and Linda Ly\n and Aria Nguyen and Chun-Chien Shieh and Ryan Sullivan and Hengrui Wang and\n Geng Zhan and Wanli Ouyang and Chenyu Wang","title":"Improving Multiple Sclerosis Lesion Segmentation Across Clinical Sites:\n A Federated Learning Approach with Noise-Resilient Training","comments":"11 pages, 4 figures, journal submission","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.IV cs.CV cs.DC","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Accurately measuring the evolution of Multiple Sclerosis (MS) with magnetic\nresonance imaging (MRI) critically informs understanding of disease progression\nand helps to direct therapeutic strategy. Deep learning models have shown\npromise for automatically segmenting MS lesions, but the scarcity of accurately\nannotated data hinders progress in this area. Obtaining sufficient data from a\nsingle clinical site is challenging and does not address the heterogeneous need\nfor model robustness. Conversely, the collection of data from multiple sites\nintroduces data privacy concerns and potential label noise due to varying\nannotation standards. To address this dilemma, we explore the use of the\nfederated learning framework while considering label noise. Our approach\nenables collaboration among multiple clinical sites without compromising data\nprivacy under a federated learning paradigm that incorporates a noise-robust\ntraining strategy based on label correction. Specifically, we introduce a\nDecoupled Hard Label Correction (DHLC) strategy that considers the imbalanced\ndistribution and fuzzy boundaries of MS lesions, enabling the correction of\nfalse annotations based on prediction confidence. We also introduce a Centrally\nEnhanced Label Correction (CELC) strategy, which leverages the aggregated\ncentral model as a correction teacher for all sites, enhancing the reliability\nof the correction process. Extensive experiments conducted on two multi-site\ndatasets demonstrate the effectiveness and robustness of our proposed methods,\nindicating their potential for clinical applications in multi-site\ncollaborations.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 00:36:10 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Bai","Lei",""],["Wang","Dongang",""],["Barnett","Michael",""],["Cabezas","Mariano",""],["Cai","Weidong",""],["Calamante","Fernando",""],["Kyle","Kain",""],["Liu","Dongnan",""],["Ly","Linda",""],["Nguyen","Aria",""],["Shieh","Chun-Chien",""],["Sullivan","Ryan",""],["Wang","Hengrui",""],["Zhan","Geng",""],["Ouyang","Wanli",""],["Wang","Chenyu",""]]}
+{"id":"2308.16377","submitter":"Matija Franklin","authors":"Simon Hudson, Matija Franklin","title":"Science Communications for Explainable Artificial Intelligence","comments":"Accepted at the IJCAI-23 Workshop on XAI held at the Thirty-Second\n International Joint Conference on Artificial Intelligence (IJCAI-23)","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.HC","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Artificial Intelligence (AI) has a communication problem. XAI methods have\nbeen used to make AI more understandable and helped resolve some of the\ntransparency issues that inhibit AI's broader usability. However, user\nevaluation studies reveal that the often numerical explanations provided by XAI\nmethods have not always been effective for many types of users of AI systems.\nThis article aims to adapt the major communications models from Science\nCommunications into a framework for practitioners to understand, influence, and\nintegrate the context of audiences both for their communications supporting AI\nliteracy in the public and in designing XAI systems that are more adaptive to\ndifferent users.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 00:39:33 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Hudson","Simon",""],["Franklin","Matija",""]]}
+{"id":"2308.16378","submitter":"Vitor Marques","authors":"Pedro Baptista, Gabriel Coutinho, Vitor Marques","title":"Unexpected Averages of Mixing Matrices","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph math.CO math.PR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The (standard) average mixing matrix of a continuous-time quantum walk is\ncomputed by taking the expected value of the mixing matrices of the walk under\nthe uniform sampling distribution on the real line. In this paper we consider\nalternative probability distributions, either discrete or continuous, and first\nwe show that several algebraic properties that hold for the average mixing\nmatrix still stand for this more general setting. Then, we provide examples of\ngraphs and choices of distributions where the average mixing matrix behaves in\nan unexpected way: for instance, we show that there are probability\ndistributions for which the average mixing matrices of the paths on three or\nfour vertices have constant entries, opening a significant line of\ninvestigation about how to use classical probability distributions to sample\nquantum walks and obtain desired quantum effects. We present results connecting\nthe trace of the average mixing matrix and quantum walk properties, and we show\nthat the Gram matrix of average states is the average mixing matrix of a\ncertain related distribution. Throughout the text, we employ concepts of\nclassical probability theory not usually seen in texts about quantum walks.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 00:44:58 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Baptista","Pedro",""],["Coutinho","Gabriel",""],["Marques","Vitor",""]]}
+{"id":"2308.16379","submitter":"Abdelghani Ghanem","authors":"Abdelghani Ghanem, Philippe Ciblat, Mounir Ghogho","title":"Multi-Objective Decision Transformers for Offline Reinforcement Learning","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.RO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Offline Reinforcement Learning (RL) is structured to derive policies from\nstatic trajectory data without requiring real-time environment interactions.\nRecent studies have shown the feasibility of framing offline RL as a sequence\nmodeling task, where the sole aim is to predict actions based on prior context\nusing the transformer architecture. However, the limitation of this single task\nlearning approach is its potential to undermine the transformer model's\nattention mechanism, which should ideally allocate varying attention weights\nacross different tokens in the input context for optimal prediction. To address\nthis, we reformulate offline RL as a multi-objective optimization problem,\nwhere the prediction is extended to states and returns. We also highlight a\npotential flaw in the trajectory representation used for sequence modeling,\nwhich could generate inaccuracies when modeling the state and return\ndistributions. This is due to the non-smoothness of the action distribution\nwithin the trajectory dictated by the behavioral policy. To mitigate this\nissue, we introduce action space regions to the trajectory representation. Our\nexperiments on D4RL benchmark locomotion tasks reveal that our propositions\nallow for more effective utilization of the attention mechanism in the\ntransformer model, resulting in performance that either matches or outperforms\ncurrent state-of-the art methods.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 00:47:58 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Ghanem","Abdelghani",""],["Ciblat","Philippe",""],["Ghogho","Mounir",""]]}
+{"id":"2308.16380","submitter":"Xiao Pan","authors":"Elmira Faraji Zonouz, Xiao Pan, Yu-Cheng Hsu, Tony Yang","title":"3D vision-based structural masonry damage detection","comments":"10 pages, accepted in the Canadian Conference - Pacific Conference on\n Earthquake Engineering 2023, Vancouver, British Columbia","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" The detection of masonry damage is essential for preventing potentially\ndisastrous outcomes. Manual inspection can, however, take a long time and be\nhazardous to human inspectors. Automation of the inspection process using novel\ncomputer vision and machine learning algorithms can be a more efficient and\nsafe solution to prevent further deterioration of the masonry structures. Most\nexisting 2D vision-based methods are limited to qualitative damage\nclassification, 2D localization, and in-plane quantification. In this study, we\npresent a 3D vision-based methodology for accurate masonry damage detection,\nwhich offers a more robust solution with a greater field of view, depth of\nvision, and the ability to detect failures in complex environments. First,\nimages of the masonry specimens are collected to generate a 3D point cloud.\nSecond, 3D point clouds processing methods are developed to evaluate the\nmasonry damage. We demonstrate the effectiveness of our approach through\nexperiments on structural masonry components. Our experiments showed the\nproposed system can effectively classify damage states and localize and\nquantify critical damage features. The result showed the proposed method can\nimprove the level of autonomy during the inspection of masonry structures.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 00:48:05 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zonouz","Elmira Faraji",""],["Pan","Xiao",""],["Hsu","Yu-Cheng",""],["Yang","Tony",""]]}
+{"id":"2308.16381","submitter":"Shaohang Xu","authors":"Shaohang Xu, Haolin Ruan, Wentao Zhang, Yian Wang, Lijun Zhu, Chin\n Pang Ho","title":"Wasserstein Distributionally Robust Chance Constrained Trajectory\n Optimization for Mobile Robots within Uncertain Safe Corridor","comments":"7 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.RO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Safe corridor-based Trajectory Optimization (TO) presents an appealing\napproach for collision-free path planning of autonomous robots, offering global\noptimality through its convex formulation. The safe corridor is constructed\nbased on the perceived map, however, the non-ideal perception induces\nuncertainty, which is rarely considered in trajectory generation. In this\npaper, we propose Distributionally Robust Safe Corridor Constraints (DRSCCs) to\nconsider the uncertainty of the safe corridor. Then, we integrate DRSCCs into\nthe trajectory optimization framework using Bernstein basis polynomials.\nTheoretically, we rigorously prove that the trajectory optimization problem\nincorporating DRSCCs is equivalent to a computationally efficient, convex\nquadratic program. Compared to the nominal TO, our method enhances navigation\nsafety by significantly reducing the infeasible motions in presence of\nuncertainty. Moreover, the proposed approach is validated through two robotic\napplications, a micro Unmanned Aerial Vehicle (UAV) and a quadruped robot\nUnitree A1.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 00:58:28 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Xu","Shaohang",""],["Ruan","Haolin",""],["Zhang","Wentao",""],["Wang","Yian",""],["Zhu","Lijun",""],["Ho","Chin Pang",""]]}
+{"id":"2308.16382","submitter":"Xiao Wang","authors":"Xiao Wang, Fang Dai, Wenyan Guo, Junfeng Wang","title":"A stochastic block model for community detection in attributed networks","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SI stat.ML","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Community detection is an important content in complex network analysis. The\nexisting community detection methods in attributed networks mostly focus on\nonly using network structure, while the methods of integrating node attributes\nis mainly for the traditional community structures, and cannot detect\nmultipartite structures and mixture structures in network. In addition, the\nmodel-based community detection methods currently proposed for attributed\nnetworks do not fully consider unique topology information of nodes, such as\nbetweenness centrality and clustering coefficient. Therefore, a stochastic\nblock model that integrates betweenness centrality and clustering coefficient\nof nodes for community detection in attributed networks, named BCSBM, is\nproposed in this paper. Different from other generative models for attributed\nnetworks, the generation process of links and attributes in BCSBM model follows\nthe Poisson distribution, and the probability between community is considered\nbased on the stochastic block model. Moreover, the betweenness centrality and\nclustering coefficient of nodes are introduced into the process of links and\nattributes generation. Finally, the expectation maximization algorithm is\nemployed to estimate the parameters of the BCSBM model, and the node-community\nmemberships is obtained through the hard division process, so the community\ndetection is completed. By experimenting on six real-work networks containing\ndifferent network structures, and comparing with the community detection\nresults of five algorithms, the experimental results show that the BCSBM model\nnot only inherits the advantages of the stochastic block model and can detect\nvarious network structures, but also has good data fitting ability due to\nintroducing the betweenness centrality and clustering coefficient of nodes.\nOverall, the performance of this model is superior to other five compared\nalgorithms.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 01:00:24 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Wang","Xiao",""],["Dai","Fang",""],["Guo","Wenyan",""],["Wang","Junfeng",""]]}
+{"id":"2308.16383","submitter":"Chengyang Fang","authors":"Chengyang Fang, Jiangnan Li, Liang Li, Can Ma, Dayong Hu","title":"Separate and Locate: Rethink the Text in Text-based Visual Question\n Answering","comments":"Accepted by ACM MM 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV cs.MM","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Text-based Visual Question Answering (TextVQA) aims at answering questions\nabout the text in images. Most works in this field focus on designing network\nstructures or pre-training tasks. All these methods list the OCR texts in\nreading order (from left to right and top to bottom) to form a sequence, which\nis treated as a natural language ``sentence''. However, they ignore the fact\nthat most OCR words in the TextVQA task do not have a semantical contextual\nrelationship. In addition, these approaches use 1-D position embedding to\nconstruct the spatial relation between OCR tokens sequentially, which is not\nreasonable. The 1-D position embedding can only represent the left-right\nsequence relationship between words in a sentence, but not the complex spatial\nposition relationship. To tackle these problems, we propose a novel method\nnamed Separate and Locate (SaL) that explores text contextual cues and designs\nspatial position embedding to construct spatial relations between OCR texts.\nSpecifically, we propose a Text Semantic Separate (TSS) module that helps the\nmodel recognize whether words have semantic contextual relations. Then, we\nintroduce a Spatial Circle Position (SCP) module that helps the model better\nconstruct and reason the spatial position relationships between OCR texts. Our\nSaL model outperforms the baseline model by 4.44% and 3.96% accuracy on TextVQA\nand ST-VQA datasets. Compared with the pre-training state-of-the-art method\npre-trained on 64 million pre-training samples, our method, without any\npre-training tasks, still achieves 2.68% and 2.52% accuracy improvement on\nTextVQA and ST-VQA. Our code and models will be released at\nhttps://github.com/fangbufang/SaL.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 01:00:59 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Fang","Chengyang",""],["Li","Jiangnan",""],["Li","Liang",""],["Ma","Can",""],["Hu","Dayong",""]]}
+{"id":"2308.16384","submitter":"Ryota Shii","authors":"Ryota Shii","title":"On non-trivial $\\Lambda$-submodules with finite index of the plus/minus\n Selmer group over anticyclotomic $\\mathbb{Z}_{p}$-extension at inert primes","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.NT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Let $K$ be an imaginary quadratic field where $p$ is inert. Let $E$ be an\nelliptic curve defined over $K$ and suppose that $E$ has good supersingular\nreduction at $p$. In this paper, we prove that the plus/minus Selmer group of\n$E$ over the anticyclotomic $\\mathbb{Z}_{p}$-extension of $K$ has no\nnon-trivial $\\Lambda$-submodules of finite index under mild assumptions for\n$E$. This is an analogous result to R. Greenberg and B. D. Kim for the\nanticyclotomic $\\mathbb{Z}_{p}$-extension essentially. By applying the results\nof A. Agoboola--B. Howard or A. Burungale--K. B\\\"uy\\\"ukboduk--A. Lei, we can\nalso construct examples satisfying the assumptions of our theorem.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 01:01:12 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Shii","Ryota",""]]}
+{"id":"2308.16385","submitter":"Qiang Huang","authors":"Qiang Huang, Jiawei Jiang, Xi Susie Rao, Ce Zhang, Zhichao Han, Zitao\n Zhang, Xin Wang, Yongjun He, Quanqing Xu, Yang Zhao, Chuang Hu, Shuo Shang,\n Bo Du","title":"BenchTemp: A General Benchmark for Evaluating Temporal Graph Neural\n Networks","comments":"28 pages, 23 figures, 27 tables. Submitted to the Conference on\n Neural Information Processing Systems 2023 Track on Datasets and Benchmarks","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" To handle graphs in which features or connectivities are evolving over time,\na series of temporal graph neural networks (TGNNs) have been proposed. Despite\nthe success of these TGNNs, the previous TGNN evaluations reveal several\nlimitations regarding four critical issues: 1) inconsistent datasets, 2)\ninconsistent evaluation pipelines, 3) lacking workload diversity, and 4)\nlacking efficient comparison. Overall, there lacks an empirical study that puts\nTGNN models onto the same ground and compares them comprehensively. To this\nend, we propose BenchTemp, a general benchmark for evaluating TGNN models on\nvarious workloads. BenchTemp provides a set of benchmark datasets so that\ndifferent TGNN models can be fairly compared. Further, BenchTemp engineers a\nstandard pipeline that unifies the TGNN evaluation. With BenchTemp, we\nextensively compare the representative TGNN models on different tasks (e.g.,\nlink prediction and node classification) and settings (transductive and\ninductive), w.r.t. both effectiveness and efficiency metrics. We have made\nBenchTemp publicly available at https://github.com/qianghuangwhu/benchtemp.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 01:03:27 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Huang","Qiang",""],["Jiang","Jiawei",""],["Rao","Xi Susie",""],["Zhang","Ce",""],["Han","Zhichao",""],["Zhang","Zitao",""],["Wang","Xin",""],["He","Yongjun",""],["Xu","Quanqing",""],["Zhao","Yang",""],["Hu","Chuang",""],["Shang","Shuo",""],["Du","Bo",""]]}
+{"id":"2308.16386","submitter":"Yang Luo","authors":"Yang Luo, Xiqing Guo, Hui Feng, Lei Ao","title":"RGB-T Tracking via Multi-Modal Mutual Prompt Learning","comments":"9 pages, 5 figures, 5 tables","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Object tracking based on the fusion of visible and thermal im-ages, known as\nRGB-T tracking, has gained increasing atten-tion from researchers in recent\nyears. How to achieve a more comprehensive fusion of information from the two\nmodalities with fewer computational costs has been a problem that re-searchers\nhave been exploring. Recently, with the rise of prompt learning in computer\nvision, we can better transfer knowledge from visual large models to downstream\ntasks. Considering the strong complementarity between visible and thermal\nmodalities, we propose a tracking architecture based on mutual prompt learning\nbetween the two modalities. We also design a lightweight prompter that\nincorporates attention mechanisms in two dimensions to transfer information\nfrom one modality to the other with lower computational costs, embedding it\ninto each layer of the backbone. Extensive ex-periments have demonstrated that\nour proposed tracking ar-chitecture is effective and efficient, achieving\nstate-of-the-art performance while maintaining high running speeds.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 01:13:01 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Luo","Yang",""],["Guo","Xiqing",""],["Feng","Hui",""],["Ao","Lei",""]]}
+{"id":"2308.16387","submitter":"Zhigang Wu","authors":"Juanzi Cai, Zhiang Wu, Guochun Wu","title":"Stability and instability for compressible Navier-Stokes equations with\n Yukawa potential","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.AP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper, we first consider global well-posedness and long time behavior\nof compressible Navier-Stokes equations with Yukawa-type potential in\n$L^p$-framework under the stability condition $P'(\\bar\\rho)+\\gamma\\bar\\rho>0$.\nHere $\\bar\\rho>0$ is the background density, P is the pressure and\n$\\gamma\\in\\mathbb{R}$ is Yukawa coefficient. This is a continuity work of\nChikami \\cite{chikami1} concerning on local existence and blow-up criterion. On\nthe other hand, we study the instability of the linear and nonlinear problem of\nthe system when $P'(\\bar\\rho)+\\gamma\\bar\\rho<0$ in the Hadamard sense.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 01:26:48 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Cai","Juanzi",""],["Wu","Zhiang",""],["Wu","Guochun",""]]}
+{"id":"2308.16388","submitter":"Daniel De La Riva Massaad","authors":"Daniel Ahlberg and Daniel de la Riva","title":"Is 'being above the median' a noise sensitive property?","comments":"A YouTube video introducing this article:\n https://www.youtube.com/watch?v=yAJzVsAwHZs","journal-ref":null,"doi":null,"report-no":null,"categories":"math.PR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Assign independent weights to the edges of the square lattice, from the\nuniform distribution on $\\{a,b\\}$ for some $0> v_2$, we show a method to construct a SBBD with $v_1$ is\nclose to $v_2$ by partitioning the block set.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 02:12:08 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Chisaki","Shoko",""],["Fuji-Hara","Ryoh",""],["Miyamoto","Nobuko",""]]}
+{"id":"2308.16403","submitter":"Jacob Miller","authors":"Jacob Miller and Vahan Huroyan and Stephen Kobourov","title":"Balancing between the Local and Global Structures (LGS) in Graph\n Embedding","comments":"Appears in the Proceedings of the 31st International Symposium on\n Graph Drawing and Network Visualization (GD 2023)","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.HC cs.CG cs.LG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We present a method for balancing between the Local and Global Structures\n(LGS) in graph embedding, via a tunable parameter. Some embedding methods aim\nto capture global structures, while others attempt to preserve local\nneighborhoods. Few methods attempt to do both, and it is not always possible to\ncapture well both local and global information in two dimensions, which is\nwhere most graph drawing live. The choice of using a local or a global\nembedding for visualization depends not only on the task but also on the\nstructure of the underlying data, which may not be known in advance. For a\ngiven graph, LGS aims to find a good balance between the local and global\nstructure to preserve. We evaluate the performance of LGS with synthetic and\nreal-world datasets and our results indicate that it is competitive with the\nstate-of-the-art methods, using established quality metrics such as stress and\nneighborhood preservation. We introduce a novel quality metric, cluster\ndistance preservation, to assess intermediate structure capture. All\nsource-code, datasets, experiments and analysis are available online.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 02:12:46 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Miller","Jacob",""],["Huroyan","Vahan",""],["Kobourov","Stephen",""]]}
+{"id":"2308.16404","submitter":"Xixuan Hao","authors":"Xixuan Hao, Aozhong Zhang, Xianze Meng and Bin Fu","title":"Deformation Robust Text Spotting with Geometric Prior","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The goal of text spotting is to perform text detection and recognition in an\nend-to-end manner. Although the diversity of luminosity and orientation in\nscene texts has been widely studied, the font diversity and shape variance of\nthe same character are ignored in recent works, since most characters in\nnatural images are rendered in standard fonts. To solve this problem, we\npresent a Chinese Artistic Dataset, termed as ARText, which contains 33,000\nartistic images with rich shape deformation and font diversity. Based on this\ndatabase, we develop a deformation robust text spotting method (DR TextSpotter)\nto solve the recognition problem of complex deformation of characters in\ndifferent fonts. Specifically, we propose a geometric prior module to highlight\nthe important features based on the unsupervised landmark detection\nsub-network. A graph convolution network is further constructed to fuse the\ncharacter features and landmark features, and then performs semantic reasoning\nto enhance the discrimination for different characters. The experiments are\nconducted on ARText and IC19-ReCTS datasets. Our results demonstrate the\neffectiveness of our proposed method.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 02:13:15 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Hao","Xixuan",""],["Zhang","Aozhong",""],["Meng","Xianze",""],["Fu","Bin",""]]}
+{"id":"2308.16405","submitter":"Michael Heisel","authors":"Michael Heisel, Marcelo Chamecki","title":"On the departure from Monin-Obukhov surface similarity and transition to\n the convective mixed layer","comments":"28 pages, 10 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.flu-dyn physics.ao-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Large-eddy simulations are used to evaluate mean profile similarity in the\nconvective boundary layer (CBL). Particular care is taken regarding the grid\nsensitivity of the profiles and the mitigation of inertial oscillations in the\nsimulation spin-up. The nondimensional gradients $\\phi$ for wind speed and air\ntemperature generally align with Monin-Obukhov similarity across cases but have\na steeper slope than predicted within each profile. The same trend has been\nnoted in several other recent studies. The Businger-Dyer relations are modified\nhere with an exponential cutoff term to account for the decay in $\\phi$ to\nfirst-order approximation, yielding improved similarity from approximately\n0.05$z_i$ to above 0.3$z_i$, where $z_i$ is the CBL depth. The necessity for\nthe exponential correction is attributed to an extended transition from surface\nscaling to zero gradient in the mixed layer, where the departure from\nMonin-Obukhov similarity is negligible at the surface but becomes substantial\nwell below the conventional surface layer height of 0.1$z_i$.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 02:14:59 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Heisel","Michael",""],["Chamecki","Marcelo",""]]}
+{"id":"2308.16406","submitter":"Zehao Dong","authors":"Zehao Dong, Weidong Cao, Muhan Zhang, Dacheng Tao, Yixin Chen, Xuan\n Zhang","title":"CktGNN: Circuit Graph Neural Network for Electronic Design Automation","comments":"Accepted by ICLR (International Conference on Learning\n Representations) 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The electronic design automation of analog circuits has been a longstanding\nchallenge in the integrated circuit field due to the huge design space and\ncomplex design trade-offs among circuit specifications. In the past decades,\nintensive research efforts have mostly been paid to automate the transistor\nsizing with a given circuit topology. By recognizing the graph nature of\ncircuits, this paper presents a Circuit Graph Neural Network (CktGNN) that\nsimultaneously automates the circuit topology generation and device sizing\nbased on the encoder-dependent optimization subroutines. Particularly, CktGNN\nencodes circuit graphs using a two-level GNN framework (of nested GNN) where\ncircuits are represented as combinations of subgraphs in a known subgraph\nbasis. In this way, it significantly improves design efficiency by reducing the\nnumber of subgraphs to perform message passing. Nonetheless, another critical\nroadblock to advancing learning-assisted circuit design automation is a lack of\npublic benchmarks to perform canonical assessment and reproducible research. To\ntackle the challenge, we introduce Open Circuit Benchmark (OCB), an\nopen-sourced dataset that contains $10$K distinct operational amplifiers with\ncarefully-extracted circuit specifications. OCB is also equipped with\ncommunicative circuit generation and evaluation capabilities such that it can\nhelp to generalize CktGNN to design various analog circuits by producing\ncorresponding datasets. Experiments on OCB show the extraordinary advantages of\nCktGNN through representation-based optimization frameworks over other recent\npowerful GNN baselines and human experts' manual designs. Our work paves the\nway toward a learning-based open-sourced design automation for analog circuits.\nOur source code is available at \\url{https://github.com/zehao-dong/CktGNN}.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 02:20:25 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Dong","Zehao",""],["Cao","Weidong",""],["Zhang","Muhan",""],["Tao","Dacheng",""],["Chen","Yixin",""],["Zhang","Xuan",""]]}
+{"id":"2308.16407","submitter":"Takao Morinari","authors":"Daiki Sasamoto and Takao Morinari","title":"General Formula for the Green's Function Approach to the Spin-1/2\n Antiferromagnetic Heisenberg Model","comments":"7 pages, 2 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.str-el","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" A wide range of analytical and numerical methods are available to study\nquantum spin systems. However, the complexity of spin correlations and\ninteractions limits their applicability to specific temperature ranges. The\nanalytical approach utilizing Green's function has proved advantageous, as it\nallows for formulation without restrictions on the presence of long-range order\nand facilitates estimation of the spin excitation spectrum and thermodynamic\nquantities across the entire temperature range. In this work, we present a\ngeneralized formulation of the Green's function method that can be applied to\ndiverse spin systems. As specific applications, we consider the hypercubic\nlattice and the $J_1$-$J_2$ model. For the cubic lattice case, the Green's\nfunction approach provides a good estimation for the transition temperature.\nRegarding the $J_1$-$J_2$ model, we include nematic correlations in the\nanalysis and find no signature of such correlations, though accurate numerical\ncalculations are required in the presence of strong frustration. Although our\nfocus is on the spin one-half antiferromagnetic Heisenberg model on an\narbitrary lattice, the Green's function approach can be generalized to\nincorporate other interactions and higher spin values.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 02:23:24 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Sasamoto","Daiki",""],["Morinari","Takao",""]]}
+{"id":"2308.16408","submitter":"Mehdi Behroozi","authors":"Mehdi Behroozi and Dinghao Ma","title":"Last Mile Delivery with Drones and Sharing Economy","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.OC cs.CG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We consider a combined system of regular delivery trucks and crowdsourced\ndrones, available via a sharing economy platform, to provide a\ntechnology-assisted crowd-based last-mile delivery experience. We develop\nanalytical models and methods for a system in which package delivery is\nperformed by a big truck carrying many packages to a neighborhood or a town in\na metropolitan area and then the packages are assigned to crowdsourced drone\noperators to deliver them to their final destinations. We develop several\noptimization models for various cases of the problem and use a combination of\nheuristic algorithms to solve this NP-hard problem. Finally, we present\ncomputational results for the models and algorithms, and conduct an exhaustive\nsensitivity analysis to check the influence of different parameters and\nassumptions on the final results. We also provide extensive managerial insights\non the benefits of our proposed model if implemented in practice.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 02:24:11 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Behroozi","Mehdi",""],["Ma","Dinghao",""]]}
+{"id":"2308.16409","submitter":"Ting Gao","authors":"Mengying Hu, Ting Gao, Fengli Yan","title":"Strong quantum nonlocality with genuine entanglement in an $N$-qutrit\n system","comments":"12 pages, 1 figure","journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper, we construct genuinely multipartite entangled bases in\n$(\\mathbb{C}^{3})^{\\otimes N}$ for $N\\geq3$, where every state is one-uniform\nstate. By modifying this construction, we successfully obtain strongly nonlocal\northogonal genuinely entangled sets and strongly nonlocal orthogonal genuinely\nentangled bases, which provide an answer to the open problem raised by Halder\n$et~al.$\n[\\href{https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.122.040403}\n{Phy. Rev. Lett. \\textbf{122}, 040403 (2019)}]. The strongly nonlocal\northogonal genuine entangled set we constructed in $(\\mathbb{C}^{3})^{\\otimes\nN}$ contains much fewer quantum states than all known ones. When $N>3$, our\nresult answers the open question given by Wang $et~al$.\n[\\href{https://journals.aps.org/pra/abstract/10.1103/PhysRevA.104.012424}\n{Phys. Rev. A \\textbf{104}, 012424 (2021)}].\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 02:31:42 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Hu","Mengying",""],["Gao","Ting",""],["Yan","Fengli",""]]}
+{"id":"2308.16410","submitter":"Th\\'ai Th\\`anh Nguy\\^en","authors":"T\\`ai Huy H\\`a, Arvind Kumar, Hop D. Nguyen, Thai Thanh Nguyen","title":"Resurgence number of graded families of ideals","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.AC math.AG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We define the resurgence and asymptotic resurgence numbers associated to a\npair of graded families of ideals in a Noetherian ring. These notions\ngeneralize the well-studied resurgence and asymptotic resurgence of an ideal in\na polynomial ring. We examine when these invariant are finite and rational. We\ninvestigate situations where these invariant can be computed via Rees\nvaluations or realized as actual limits of well-defined sequences. We study how\nthe asymptotic resurgence changes when a family is replaced by its integral\nclosure. Many examples are given to illustrate that whether or not known\nproperties of resurgence and asymptotic resurgence of an ideal would extend to\nthat of a pair of graded families of ideals generally depends on the Noetherian\nproperty and finite generation of the Rees algebras of these families.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 02:48:16 GMT"}],"update_date":"2023-09-01","authors_parsed":[["H\u00e0","T\u00e0i Huy",""],["Kumar","Arvind",""],["Nguyen","Hop D.",""],["Nguyen","Thai Thanh",""]]}
+{"id":"2308.16411","submitter":"William Bialek","authors":"William Bialek","title":"Keith Brueckner (1924-2014). A biographical memoir","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.hist-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Keith Brueckner was a theoretical physicist of considerable technical power\nwho came of age as the mysteries of the atomic nucleus were coming into focus.\nHis fundamental contributions to the \"many-body problem\" had a lasting impact\non our understanding of how the macroscopic behavior of matter emerges from the\nunderlying microscopic rules. A passionate and accomplished mountain climber,\nhe listed the American Alpine Club below the National Academy of Sciences on\nhis vitae. During decades of complex interactions between the physics community\nand the United States government, he helped build structures that allowed him\nand many others to provide advice on classified matters, but also actively\nraised funds to support opposition to the war in Vietnam. At the peak of his\ncareer, he left the Ivy League to help found and build a new university in a\nsmall village filled with Marines and retirees - La Jolla, California.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 02:49:42 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Bialek","William",""]]}
+{"id":"2308.16412","submitter":"Yaquan Fang","authors":"Yaquan Fang","title":"Instantaneous Symmetry Breaking to the Non-observed Dark Matter","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" A theory explaining the non-observation of the dark matter and the source of\nthe dark energy is presented in this letter. By integrating the asymmetrical\npotential and the Higgs potential, we provide a model with instantaneous\nsymmetrical breaking and stable symmetrical breaking, resulting in the\nnon-observed dark matter and observed matter respectively. Two crucial\nparameters in this model are the frequency and strength of the symmetry\nbreaking from the vacuum: the former helps explain the impact of the effective\nmass from the dark matter; the latter determines the source of the dark energy.\nThe expected strength in a certain period varies, causing the accelerating or\ndeccelerating expansions of the universe. Considering the expected strength\ncorrelated with the vacuum expectation value and basing on the possible\nvariations of the measured masses of the fundamental particles such as Z boson\nover time, one can perhaps derive the exact stage of the current universe.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 02:49:59 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Fang","Yaquan",""]]}
+{"id":"2308.16413","submitter":"Peng Yang","authors":"Yuxin Kong, Peng Yang, Yan Cheng","title":"Edge-Assisted On-Device Model Update for Video Analytics in Adverse\n Environments","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.MM","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" While large deep neural networks excel at general video analytics tasks, the\nsignificant demand on computing capacity makes them infeasible for real-time\ninference on resource-constrained end cam-eras. In this paper, we propose an\nedge-assisted framework that continuously updates the lightweight model\ndeployed on the end cameras to achieve accurate predictions in adverse\nenvironments. This framework consists of three modules, namely, a key frame\nextractor, a trigger controller, and a retraining manager. The low-cost key\nframe extractor obtains frames that can best represent the current environment.\nThose frames are then transmitted and buffered as the retraining data for model\nupdate at the edge server. Once the trigger controller detects a significant\naccuracy drop in the selected frames, the retraining manager outputs the\noptimal retraining configuration balancing the accuracy and time cost. We\nprototype our system on two end devices of different computing capacities with\none edge server. The results demonstrate that our approach significantly\nimproves accuracy across all tested adverse environment scenarios (up to 24%)\nand reduces more than 50% of the retraining time compared to existing\nbenchmarks.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 02:54:30 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Kong","Yuxin",""],["Yang","Peng",""],["Cheng","Yan",""]]}
+{"id":"2308.16414","submitter":"Teruaki Kitano","authors":"Teruaki Kitano, Yoshihiko Mitsumatsu and Shigeyuki Morita","title":"Remarks on flat $S^1$-bundles, $C^\\infty$ vs $C^\\omega$","comments":"21 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.GT math.AT","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We describe low dimensional homology groups of $\\mathrm{Diff}^\\delta_+S^1$ in\nterms of Haefliger's classifying space $B\\overline{\\Gamma}_1$ by applying a\ntheorem of Thurston. Then we consider the question whether some power of the\nrational Euler class vanishes for real analytic flat $S^1$-bundles. We show\nthat if it occurs, then the homology group of $\\mathrm{Diff}_+^{\\omega,\\delta}\nS^1$ should contain two kinds of many torsion classes which vanish in\n$\\mathrm{Diff}^\\delta_+S^1$. This is an informal note on our discussions about\nthe above question.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 02:58:17 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Kitano","Teruaki",""],["Mitsumatsu","Yoshihiko",""],["Morita","Shigeyuki",""]]}
+{"id":"2308.16415","submitter":"Kyuhong Shim","authors":"Kyuhong Shim, Jinkyu Lee, Simyung Chang, Kyuwoong Hwang","title":"Knowledge Distillation from Non-streaming to Streaming ASR Encoder using\n Auxiliary Non-streaming Layer","comments":"Accepted to Interspeech 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL eess.AS","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Streaming automatic speech recognition (ASR) models are restricted from\naccessing future context, which results in worse performance compared to the\nnon-streaming models. To improve the performance of streaming ASR, knowledge\ndistillation (KD) from the non-streaming to streaming model has been studied,\nmainly focusing on aligning the output token probabilities. In this paper, we\npropose a layer-to-layer KD from the teacher encoder to the student encoder. To\nensure that features are extracted using the same context, we insert auxiliary\nnon-streaming branches to the student and perform KD from the non-streaming\nteacher layer to the non-streaming auxiliary layer. We design a special KD loss\nthat leverages the autoregressive predictive coding (APC) mechanism to\nencourage the streaming model to predict unseen future contexts. Experimental\nresults show that the proposed method can significantly reduce the word error\nrate compared to previous token probability distillation methods.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 02:58:33 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Shim","Kyuhong",""],["Lee","Jinkyu",""],["Chang","Simyung",""],["Hwang","Kyuwoong",""]]}
+{"id":"2308.16416","submitter":"Ben Ripley","authors":"B. T. E. Ripley, D. Baillie, and P. B. Blakie","title":"Two-dimensional supersolidity in a planar dipolar Bose gas","comments":"10 pages, 8 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.quant-gas","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We investigate the crystalline stationary states of a dipolar Bose-Einstein\ncondensate in a planar trapping geometry. Our focus is on the ground state\nphase diagram in the thermodynamic limit, where triangular, honeycomb and\nstripe phases occur. We quantify the superfluid fraction by calculating the\nnon-classical translational inertia, which allows us to identify favorable\nparameter regimes for observing supersolid ground states. We develop two\nsimplified theories to approximately describe the ground states, and consider\nthe relationship to roton softening in the uniform ground state. This also\nallows us to extend the phase diagram to the low density regime. While the\ntriangular and honeycomb states have an isotropic superfluid response tensor,\nthe stripe state exhibits anisotropic superfluidity.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 03:01:18 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Ripley","B. T. E.",""],["Baillie","D.",""],["Blakie","P. B.",""]]}
+{"id":"2308.16417","submitter":"Peng Yang","authors":"Yan Cheng, Peng Yang, Ning Zhang, Jiawei Hou","title":"Edge-Assisted Lightweight Region-of-Interest Extraction and Transmission\n for Vehicle Perception","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.MM","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" To enhance on-road environmental perception for autonomous driving, accurate\nand real-time analytics on high-resolution video frames generated from on-board\ncameras be-comes crucial. In this paper, we design a lightweight object\nlocation method based on class activation mapping (CAM) to rapidly capture the\nregion of interest (RoI) boxes that contain driving safety related objects from\non-board cameras, which can not only improve the inference accuracy of vision\ntasks, but also reduce the amount of transmitted data. Considering the limited\non-board computation resources, the RoI boxes extracted from the raw image are\noffloaded to the edge for further processing. Considering both the dynamics of\nvehicle-to-edge communications and the limited edge resources, we propose an\nadaptive RoI box offloading algorithm to ensure prompt and accurate inference\nby adjusting the down-sampling rate of each box. Extensive experimental results\non four high-resolution video streams demonstrate that our approach can\neffectively improve the overall accuracy by up to 16% and reduce the\ntransmission demand by up to 49%, compared with other benchmarks.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 03:03:29 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Cheng","Yan",""],["Yang","Peng",""],["Zhang","Ning",""],["Hou","Jiawei",""]]}
+{"id":"2308.16418","submitter":"Peng Yang","authors":"Yuanyi He, Peng Yang, Tian Qin, Ning Zhang","title":"End-Edge Coordinated Joint Encoding and Neural Enhancement for Low-Light\n Video Analytics","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.MM","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper, we investigate video analytics in low-light environments, and\npropose an end-edge coordinated system with joint video encoding and\nenhancement. It adaptively transmits low-light videos from cameras and performs\nenhancement and inference tasks at the edge. Firstly, according to our\nobservations, both encoding and enhancement for low-light videos have a\nsignificant impact on inference accuracy, which directly influences bandwidth\nand computation overhead. Secondly, due to the limitation of built-in\ncomputation resources, cameras perform encoding and transmitting frames to the\nedge. The edge executes neural enhancement to process low contrast, detail\nloss, and color distortion on low-light videos before inference. Finally, an\nadaptive controller is designed at the edge to select quantization parameters\nand scales of neural enhancement networks, aiming to improve the inference\naccuracy and meet the latency requirements. Extensive real-world experiments\ndemon-strate that, the proposed system can achieve a better trade-off between\ncommunication and computation resources and optimize the inference accuracy.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 03:09:25 GMT"}],"update_date":"2023-09-01","authors_parsed":[["He","Yuanyi",""],["Yang","Peng",""],["Qin","Tian",""],["Zhang","Ning",""]]}
+{"id":"2308.16419","submitter":"Peng Yang","authors":"Qingxuan Feng, Peng Yang, Zhixuan Huang, Jiayin Chen, Ning Zhang","title":"Deadline Aware Two-Timescale Resource Allocation for VR Video Streaming","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.NI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper, we investigate resource allocation problem in the context of\nmultiple virtual reality (VR) video flows sharing a certain link, considering\nspecific deadline of each video frame and the impact of different frames on\nvideo quality. Firstly, we establish a queuing delay bound estimation model,\nenabling link node to proactively discard frames that will exceed the deadline.\nSecondly, we model the importance of different frames based on viewport feature\nof VR video and encoding method. Accordingly, the frames of each flow are\nsorted. Then we formulate a problem of minimizing long-term quality loss caused\nby frame dropping subject to per-flow quality guarantee and bandwidth\nconstraints. Since the frequency of frame dropping and network fluctuation are\nnot on the same time scale, we propose a two-timescale resource allocation\nscheme. On the long timescale, a queuing theory based resource allocation\nmethod is proposed to satisfy quality requirement, utilizing frame queuing\ndelay bound to obtain minimum resource demand for each flow. On the short\ntimescale, in order to quickly fine-tune allocation results to cope with the\nunstable network state, we propose a low-complexity heuristic algorithm,\nscheduling available resources based on the importance of frames in each flow.\nExtensive experimental results demonstrate that the proposed scheme can\nefficiently improve quality and fairness of VR video flows under various\nnetwork conditions.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 03:12:27 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Feng","Qingxuan",""],["Yang","Peng",""],["Huang","Zhixuan",""],["Chen","Jiayin",""],["Zhang","Ning",""]]}
+{"id":"2308.16420","submitter":"Junzhang Ma Prof.","authors":"Xin Liang, Zihan Lin, Jun Zhang, Jianfa Zhao, Shiyu Feng, Wenlong Lu,\n Guodong Wang, Luchuan Shi, Ningning Wang, Pengfei Shan, Muntaser Naamneh,\n Runzhe Liu, Bastien Michon, Jinguang Cheng, Changqing Jin, Yang Ren, Junzhang\n Ma","title":"Observation of Flat band and Van Hove Singularity in Nitrogen Doped\n Lutetium Hydride","comments":"26 pages, 9 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.supr-con cond-mat.str-el","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Hydrogen-rich materials offer a compelling avenue towards room temperature\nsuperconductivity, albeit under ultra-high pressure. However, the high-pressure\nenvironment imposes formidable constraints to investigate the electronic band\nstructure. Even under ambient pressure, the research remains elusive, due to\nthe inherent instability of most of the hydrogen-rich materials upon pressure\nrelease. Very recently, high temperature superconductivity has been reported in\npressurized lutetium hydrides (~71 K) and nitrogen doped lutetium hydride (~294\nK), with the later under debate. Upon decompression, nitrogen doped lutetium\nhydride manifests a stable metallic phase with dark blue color. This\ntransformation engenders an unprecedented opportunity, allowing for the\nexperimental investigation of the electronic band structure intrinsic to\nhydrogen-rich material. In this work, using angle resolved photoemission\nspectroscopy to investigate the nitrogen doped lutetium hydride, we observed\nsignificant flat band and a Van Hove singularity marginally below the Fermi\nlevel. These salient features, identified as critical elements, proffer\npotential amplifiers for the realization of heightened superconductivity,\npotentially extending to room temperature, as evidenced by prior research. Our\nresults not only unveil a confluence of potent strong correlation effects and\nanisotropy within the Lu-H-N compound, but also provide a prospect for\nengineering high temperature superconductivity through the strategic\nmanipulation of flat band and the VHS, effectively tailoring their alignment\nwith the Fermi energy.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 03:15:24 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Liang","Xin",""],["Lin","Zihan",""],["Zhang","Jun",""],["Zhao","Jianfa",""],["Feng","Shiyu",""],["Lu","Wenlong",""],["Wang","Guodong",""],["Shi","Luchuan",""],["Wang","Ningning",""],["Shan","Pengfei",""],["Naamneh","Muntaser",""],["Liu","Runzhe",""],["Michon","Bastien",""],["Cheng","Jinguang",""],["Jin","Changqing",""],["Ren","Yang",""],["Ma","Junzhang",""]]}
+{"id":"2308.16421","submitter":"Vishwaas Narasinh","authors":"Vishwaas Narasinh, Senthil Raja G","title":"Sequential Pitch Distributions for Raga Detection","comments":"16 pages, 6 figures, AI Music Creativity","journal-ref":"AIMC 2023. Retrieved from https://aimc2023.pubpub.org/pub/j9v30p0j","doi":null,"report-no":null,"categories":"cs.SD eess.AS","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" Raga is a fundamental melodic concept in Indian Art Music (IAM). It is\ncharacterized by complex patterns. All performances and compositions are based\non the raga framework. Raga and tonic detection have been a long-standing\nresearch problem in the field of Music Information Retrieval. In this paper, we\nattempt to detect the raga using a novel feature to extract sequential or\ntemporal information from an audio sample. We call these Sequential Pitch\nDistributions (SPD), which are distributions taken over pitch values between\ntwo given pitch values over time. We also achieve state-of-the-art results on\nboth Hindustani and Carnatic music raga data sets with an accuracy of 99% and\n88.13%, respectively. SPD gives a great boost in accuracy over a standard pitch\ndistribution. The main goal of this paper, however, is to present an\nalternative approach to modeling the temporal aspects of the melody and thereby\ndeducing the raga.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 03:15:26 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Narasinh","Vishwaas",""],["G","Senthil Raja",""]]}
+{"id":"2308.16422","submitter":"Zhixiang Ren","authors":"Tianyu Zhao, Yue Zhou, Ruijun Shi, Zhoujian Cao, Zhixiang Ren","title":"DECODE: DilatEd COnvolutional neural network for Detecting\n Extreme-mass-ratio inspirals","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.IM cs.LG gr-qc","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The detection of Extreme Mass Ratio Inspirals (EMRIs) is intricate due to\ntheir complex waveforms, extended duration, and low signal-to-noise ratio\n(SNR), making them more challenging to be identified compared to compact binary\ncoalescences. While matched filtering-based techniques are known for their\ncomputational demands, existing deep learning-based methods primarily handle\ntime-domain data and are often constrained by data duration and SNR. In\naddition, most existing work ignores time-delay interferometry (TDI) and\napplies the long-wavelength approximation in detector response calculations,\nthus limiting their ability to handle laser frequency noise. In this study, we\nintroduce DECODE, an end-to-end model focusing on EMRI signal detection by\nsequence modeling in the frequency domain. Centered around a dilated causal\nconvolutional neural network, trained on synthetic data considering TDI-1.5\ndetector response, DECODE can efficiently process a year's worth of\nmultichannel TDI data with an SNR of around 50. We evaluate our model on 1-year\ndata with accumulated SNR ranging from 50 to 120 and achieve a true positive\nrate of 96.3% at a false positive rate of 1%, keeping an inference time of less\nthan 0.01 seconds. With the visualization of three showcased EMRI signals for\ninterpretability and generalization, DECODE exhibits strong potential for\nfuture space-based gravitational wave data analyses.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 03:16:38 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zhao","Tianyu",""],["Zhou","Yue",""],["Shi","Ruijun",""],["Cao","Zhoujian",""],["Ren","Zhixiang",""]]}
+{"id":"2308.16423","submitter":"Tomasz Polak T.P.","authors":"A. Krzywicka T. P. Polak","title":"Reentrant phase behavior in systems with density-induced tunneling","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.quant-gas cond-mat.other cond-mat.stat-mech cond-mat.supr-con quant-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Open many body quantum systems play a paramount role in various branches of\nphysics, such as quantum information, nonlinear optics or condensed matter. The\ndissipative character of open systems has gained a lot of interest especially\nwithin the fields of quantum optics, due to unprecedented stabilization of\nquantum coherence, and quantum information, with its desire to control\nenvironmental degrees of freedom. We look beyond the typical mechanism of\ndissipation associated with an external source and show that strongly\ninteracting many particle systems can create quantum decoherence within\nthemselves. We study a quantum bosonic two-dimensional many body system with\nextended interactions between particles. Analytical calculations show that the\nsystem can be driven out of its coherent state, which is prevalent among\ncommonly used setups. However, we also observe a revival of the superfluid\nphase within the same framework for sufficiently large interaction strength.\nThe breakdown of quantum coherence is inevitable, but can be misinterpreted if\none assumes improper coupling between the constituents of the many particle\nsystem. We show an adequate path to retrieve physically relevant results and\nconsider its limitations. The system displays a natural cutoff that enforces\nthe breakdown of superfluidity.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 03:24:28 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Polak","A. Krzywicka T. P.",""]]}
+{"id":"2308.16424","submitter":"Hiroyuki Masaki","authors":"Hiroyuki Masaki, Hideyuki Hotta, Yukio Katukawa, Ryohtaroh T. Ishikawa","title":"Solar horizontal flow evaluation using neural network and numerical\n simulation with snapshot data","comments":"13 pages, 20 figures, accepted for publication in pasj","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.SR astro-ph.IM","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We suggest a method that evaluates the horizontal velocity in the solar\nphotosphere with easily observable values using a combination of neural network\nand radiative magnetohydrodynamics simulations. All three-component velocities\nof thermal convection on the solar surface have important roles in generating\nwaves in the upper atmosphere. However, the velocity perpendicular to the line\nof sight (LoS) is difficult to observe. To deal with this problem, the local\ncorrelation tracking (LCT) method, which employs the difference between two\nimages, has been widely used, but LCT has several disadvantages. We develop a\nmethod that evaluates the horizontal velocity from a snapshot of the intensity\nand the LoS velocity with a neural network. We use data from numerical\nsimulations for training the neural network. While two consecutive intensity\nimages are required for LCT, our network needs just one intensity image at only\na specific moment for input. From these input array, our network outputs a\nsame-size array of two-component velocity field. With only the intensity data,\nthe network achieves a high correlation coefficient between the simulated and\nevaluated velocities of 0.83. In addition, the network performance can be\nimproved when we add LoS velocity for input, enabling achieving a correlation\ncoefficient of 0.90. Our method is also applied to observed data.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 03:28:03 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Masaki","Hiroyuki",""],["Hotta","Hideyuki",""],["Katukawa","Yukio",""],["Ishikawa","Ryohtaroh T.",""]]}
+{"id":"2308.16425","submitter":"Zenan Ling","authors":"Zenan Ling, Zhenyu Liao, Robert C. Qiu","title":"On the Equivalence between Implicit and Explicit Neural Networks: A\n High-dimensional Viewpoint","comments":"Accepted by Workshop on High-dimensional Learning Dynamics, ICML\n 2023, Honolulu, Hawaii","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG stat.ML","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Implicit neural networks have demonstrated remarkable success in various\ntasks. However, there is a lack of theoretical analysis of the connections and\ndifferences between implicit and explicit networks. In this paper, we study\nhigh-dimensional implicit neural networks and provide the high dimensional\nequivalents for the corresponding conjugate kernels and neural tangent kernels.\nBuilt upon this, we establish the equivalence between implicit and explicit\nnetworks in high dimensions.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 03:28:43 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Ling","Zenan",""],["Liao","Zhenyu",""],["Qiu","Robert C.",""]]}
+{"id":"2308.16426","submitter":"Yasuaki Kobayashi","authors":"Yasuaki Kobayashi, Kazuhiro Kurita, Yasuko Matsui, Hirotaka Ono","title":"Enumerating minimal vertex covers and dominating sets with capacity\n and/or connectivity constraints","comments":"13 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DS","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper, we consider the problems of enumerating minimal vertex covers\nand minimal dominating sets with capacity and/or connectivity constraints. We\ndevelop polynomial-delay enumeration algorithms for these problems on\nbounded-degree graphs. For the case of minimal connected vertex cover, our\nalgorithm runs in polynomial delay even on the class of $d$-claw free graphs,\nwhich extends the result on bounded-degree graphs. To complement these\nalgorithmic results, we show that the problems of enumerating minimal connected\nvertex covers and minimal capacitated vertex covers in bipartite graphs are at\nleast as hard as enumerating minimal transversals in hypergraphs.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 03:30:43 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Kobayashi","Yasuaki",""],["Kurita","Kazuhiro",""],["Matsui","Yasuko",""],["Ono","Hirotaka",""]]}
+{"id":"2308.16427","submitter":"Seoung Dal Jung","authors":"Xueshan Fu, Seoung Dal Jung","title":"Generalized Chen's conjecture for biharmonic maps on foliations","comments":"14 pages. arXiv admin note: text overlap with arXiv:2212.05639","journal-ref":null,"doi":null,"report-no":null,"categories":"math.DG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper, we prove the generalized Chen's conjecture for\n(F,F')-biharmonic map, which is a critical point of the transversal bienergy\nfunctional\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 03:31:35 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Fu","Xueshan",""],["Jung","Seoung Dal",""]]}
+{"id":"2308.16428","submitter":"Maico Felipe Silva Ribeiro","authors":"R. Ara\\'ujo dos Santos, A. Menegon, M. Ribeiro, J. Seade and I. D.\n Santamaria Guar\\'in","title":"On the topology of the Milnor Boundary for real analytic singularities","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.DG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We study the topology of the boundaries of the Milnor fibers of real\nanalytics map-germs $f: (\\mathbb{R}^M,0) \\to (\\mathbb{R}^K,0)$ and\n$f_{I}:=\\Pi_{I}\\circ f : (\\mathbb{R}^M,0) \\to (\\mathbb{R}^I,0)$ that admit\nMilnor's tube fibrations, where $\\Pi_{I}:(\\mathbb{R}^K,0)\\to\n(\\mathbb{R}^{I},0)$ is the canonical projection for $1\\leq I 0.2$\nGeV, $\\cos(\\theta_{\\mu}) > 0.8$ and $\\cos(\\theta_{\\pi}) > 0.6$, and at a mean\n(anti)neutrino energy of 0.85 GeV using the T2K near detector. The measured\n$\\nu_{\\mu}$ CC coherent pion production flux-averaged cross section on $^{12}C$\nis $(2.98 \\pm 0.37 (stat.) \\pm 0.31 (syst.) \\substack{ +0.49 \\\\ -0.00 }\n\\mathrm{ (Q^2\\,model)}) \\times 10^{-40}~\\mathrm{cm}^{2}$. The new measurement\nof the $\\bar{\\nu}_{\\mu}$-induced cross section on $^{12}{C}$ is $(3.05 \\pm 0.71\n(stat.) \\pm 0.39 (syst.) \\substack{ +0.74 \\\\ -0.00 } \\mathrm{(Q^2\\,model)})\n\\times 10^{-40}~\\mathrm{cm}^{2}$. The results are compatible with both the NEUT\n5.4.0 Berger-Sehgal (2009) and GENIE 2.8.0 Rein-Sehgal (2007) model\npredictions.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:07:54 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Abe","K.",""],["Akhlaq","N.",""],["Akutsu","R.",""],["Ali","A.",""],["Monsalve","S. Alonso",""],["Alt","C.",""],["Andreopoulos","C.",""],["Antonova","M.",""],["Aoki","S.",""],["Arihara","T.",""],["Asada","Y.",""],["Ashida","Y.",""],["Atkin","E. T.",""],["Barbi","M.",""],["Barker","G. J.",""],["Barr","G.",""],["Barrow","D.",""],["Batkiewicz-Kwasniak","M.",""],["Berardi","V.",""],["Berns","L.",""],["Bhadra","S.",""],["Blanchet","A.",""],["Blondel","A.",""],["Bolognesi","S.",""],["Bonus","T.",""],["Bordoni","S.",""],["Boyd","S. B.",""],["Bravar","A.",""],["Bronner","C.",""],["Bron","S.",""],["Bubak","A.",""],["Avanzini","M. Buizza",""],["Caballero","J. A.",""],["Calabria","N. F.",""],["Cao","S.",""],["Carabadjac","D.",""],["Carter","A. J.",""],["Cartwright","S. L.",""],["Casado","M. P.",""],["Catanesi","M. G.",""],["Cervera","A.",""],["Chakrani","J.",""],["Cherdack","D.",""],["Chong","P. S.",""],["Christodoulou","G.",""],["Chvirova","A.",""],["Cicerchia","M.",""],["Coleman","J.",""],["Collazuol","G.",""],["Cook","L.",""],["Cudd","A.",""],["Dalmazzone","C.",""],["Daret","T.",""],["Davydov","Yu. I.",""],["De Roeck","A.",""],["De Rosa","G.",""],["Dealtry","T.",""],["Delogu","C. C.",""],["Densham","C.",""],["Dergacheva","A.",""],["Di Lodovico","F.",""],["Dolan","S.",""],["Douqa","D.",""],["Doyle","T. A.",""],["Drapier","O.",""],["Dumarchez","J.",""],["Dunne","P.",""],["Dygnarowicz","K.",""],["Eguchi","A.",""],["Emery-Schrenk","S.",""],["Erofeev","G.",""],["Ershova","A.",""],["Eurin","G.",""],["Fedorova","D.",""],["Fedotov","S.",""],["Feltre","M.",""],["Finch","A. J.",""],["Aguirre","G. A. Fiorentini",""],["Fiorillo","G.",""],["Fitton","M. D.",""],["Pati\u00f1o","J. M. Franco",""],["Friend","M.",""],["Fujii","Y.",""],["Fukuda","Y.",""],["Furui","Y.",""],["Giannessi","L.",""],["Giganti","C.",""],["Glagolev","V.",""],["Gonin","M.",""],["Rosa","J. Gonz\u00e1lez",""],["Goodman","E. A. G.",""],["Gorin","A.",""],["Grassi","M.",""],["Guigue","M.",""],["Hadley","D. R.",""],["Haigh","J. T.",""],["Hamacher-Baumann","P.",""],["Harris","D. A.",""],["Hartz","M.",""],["Hasegawa","T.",""],["Hassani","S.",""],["Hastings","N. C.",""],["Hayato","Y.",""],["Henaff","D.",""],["Hogan","M.",""],["Holeczek","J.",""],["Holin","A.",""],["Holvey","T.",""],["Van","N. T. Hong",""],["Honjo","T.",""],["Ichikawa","A. K.",""],["Ikeda","M.",""],["Ishida","T.",""],["Ishitsuka","M.",""],["Israel","H. T.",""],["Izmaylov","A.",""],["Jakkapu","M.",""],["Jamieson","B.",""],["Jenkins","S. J.",""],["Jes\u00fas-Valls","C.",""],["Jiang","J. J.",""],["Ji","J. Y.",""],["Jonsson","P.",""],["Joshi","S.",""],["Jung","C. K.",""],["Jurj","P. B.",""],["Kabirnezhad","M.",""],["Kaboth","A. C.",""],["Kajita","T.",""],["Kakuno","H.",""],["Kameda","J.",""],["Kasetti","S. P.",""],["Kataoka","Y.",""],["Katori","T.",""],["Kawaue","M.",""],["Kearns","E.",""],["Khabibullin","M.",""],["Khotjantsev","A.",""],["Kikawa","T.",""],["King","S.",""],["Kiseeva","V.",""],["Kisiel","J.",""],["Kobayashi","H.",""],["Kobayashi","T.",""],["Koch","L.",""],["Kodama","S.",""],["Konaka","A.",""],["Kormos","L. L.",""],["Koshio","Y.",""],["Koto","T.",""],["Kowalik","K.",""],["Kudenko","Y.",""],["Kudo","Y.",""],["Kuribayashi","S.",""],["Kurjata","R.",""],["Kutter","T.",""],["Kuze","M.",""],["La Commara","M.",""],["Labarga","L.",""],["Lachner","K.",""],["Lagoda","J.",""],["Lakshmi","S. M.",""],["James","M. Lamers",""],["Lamoureux","M.",""],["Langella","A.",""],["Laporte","J. -F.",""],["Last","D.",""],["Latham","N.",""],["Laveder","M.",""],["Lavitola","L.",""],["Lawe","M.",""],["Lee","Y.",""],["Lin","C.",""],["Lin","S. -K.",""],["Litchfield","R. P.",""],["Liu","S. L.",""],["Li","W.",""],["Longhin","A.",""],["Long","K. R.",""],["Moreno","A. Lopez",""],["Ludovici","L.",""],["Lu","X.",""],["Lux","T.",""],["Machado","L. N.",""],["Magaletti","L.",""],["Mahn","K.",""],["Malek","M.",""],["Mandal","M.",""],["Manly","S.",""],["Marino","A. D.",""],["Marti-Magro","L.",""],["Martin","D. G. R.",""],["Martini","M.",""],["Martin","J. F.",""],["Maruyama","T.",""],["Matsubara","T.",""],["Matveev","V.",""],["Mauger","C.",""],["Mavrokoridis","K.",""],["Mazzucato","E.",""],["McCauley","N.",""],["McElwee","J.",""],["McFarland","K. S.",""],["McGrew","C.",""],["McKean","J.",""],["Mefodiev","A.",""],["Megias","G. D.",""],["Mehta","P.",""],["Mellet","L.",""],["Metelko","C.",""],["Mezzetto","M.",""],["Miller","E.",""],["Minamino","A.",""],["Mineev","O.",""],["Mine","S.",""],["Miura","M.",""],["Bueno","L. Molina",""],["Moriyama","S.",""],["Moriyama","S.",""],["Morrison","P.",""],["Mueller","Th. A.",""],["Munford","D.",""],["Munteanu","L.",""],["Nagai","K.",""],["Nagai","Y.",""],["Nakadaira","T.",""],["Nakagiri","K.",""],["Nakahata","M.",""],["Nakajima","Y.",""],["Nakamura","A.",""],["Nakamura","H.",""],["Nakamura","K.",""],["Nakamura","K. D.",""],["Nakano","Y.",""],["Nakayama","S.",""],["Nakaya","T.",""],["Nakayoshi","K.",""],["Naseby","C. E. R.",""],["Ngoc","T. V.",""],["Nguyen","V. Q.",""],["Niewczas","K.",""],["Nishimori","S.",""],["Nishimura","Y.",""],["Nishizaki","K.",""],["Nosek","T.",""],["Nova","F.",""],["Novella","P.",""],["Nugent","J. C.",""],["O'Keeffe","H. M.",""],["O'Sullivan","L.",""],["Odagawa","T.",""],["Okinaga","W.",""],["Okumura","K.",""],["Okusawa","T.",""],["Ospina","N.",""],["Oyama","Y.",""],["Palladino","V.",""],["Paolone","V.",""],["Pari","M.",""],["Parlone","J.",""],["Pasternak","J.",""],["Pavin","M.",""],["Payne","D.",""],["Penn","G. C.",""],["Pershey","D.",""],["Pickering","L.",""],["Pidcott","C.",""],["Pintaudi","G.",""],["Pistillo","C.",""],["Popov","B.",""],["Porwit","K.",""],["Posiadala-Zezula","M.",""],["Prabhu","Y. S.",""],["Pupilli","F.",""],["Quilain","B.",""],["Radermacher","T.",""],["Radicioni","E.",""],["Radics","B.",""],["Ram\u00edrez","M. A.",""],["Ratoff","P. N.",""],["Reh","M.",""],["Riccio","C.",""],["Rondio","E.",""],["Roth","S.",""],["Roy","N.",""],["Rubbia","A.",""],["Ruggeri","A. C.",""],["Ruggles","C. A.",""],["Rychter","A.",""],["Sakashita","K.",""],["S\u00e1nchez","F.",""],["Schloesser","C. M.",""],["Scholberg","K.",""],["Scott","M.",""],["Seiya","Y.",""],["Sekiguchi","T.",""],["Sekiya","H.",""],["Sgalaberna","D.",""],["Shaikhiev","A.",""],["Shaker","F.",""],["Shiozawa","M.",""],["Shorrock","W.",""],["Shvartsman","A.",""],["Skrobova","N.",""],["Skwarczynski","K.",""],["Smyczek","D.",""],["Smy","M.",""],["Sobczyk","J. T.",""],["Sobel","H.",""],["Soler","F. J. P.",""],["Sonoda","Y.",""],["Speers","A. J.",""],["Spina","R.",""],["Suslov","I. A.",""],["Suvorov","S.",""],["Suzuki","A.",""],["Suzuki","S. Y.",""],["Suzuki","Y.",""],["Tada","M.",""],["Tairafune","S.",""],["Takayasu","S.",""],["Takeda","A.",""],["Takeuchi","Y.",""],["Takifuji","K.",""],["Tanaka","H. K.",""],["Tani","M.",""],["Teklu","A.",""],["Tereshchenko","V. V.",""],["Thamm","N.",""],["Thompson","L. F.",""],["Toki","W.",""],["Touramanis","C.",""],["Towstego","T.",""],["Tsui","K. M.",""],["Tsukamoto","T.",""],["Tzanov","M.",""],["Uchida","Y.",""],["Vagins","M.",""],["Vargas","D.",""],["Varghese","M.",""],["Vasseur","G.",""],["Vilela","C.",""],["Villa","E.",""],["Vinning","W. G. S.",""],["Virginet","U.",""],["Vladisavljevic","T.",""],["Wachala","T.",""],["Walsh","J. G.",""],["Wang","Y.",""],["Wan","L.",""],["Wark","D.",""],["Wascko","M. O.",""],["Weber","A.",""],["Wendell","R.",""],["Wilking","M. J.",""],["Wilkinson","C.",""],["Wilson","J. R.",""],["Wood","K.",""],["Wret","C.",""],["Xia","J.",""],["Xu","Y. -h.",""],["Yamamoto","K.",""],["Yamamoto","T.",""],["Yanagisawa","C.",""],["Yang","G.",""],["Yano","T.",""],["Yasutome","K.",""],["Yershov","N.",""],["Yevarouskaya","U.",""],["Yokoyama","M.",""],["Yoshimoto","Y.",""],["Yoshimura","N.",""],["Yu","M.",""],["Zaki","R.",""],["Zalewska","A.",""],["Zalipska","J.",""],["Zaremba","K.",""],["Zarnecki","G.",""],["Zhao","X.",""],["Zhu","T.",""],["Ziembicki","M.",""],["Zimmerman","E. D.",""],["Zito","M.",""],["Zsoldos","S.",""]]}
+{"id":"2308.16607","submitter":"Rapha\\\"el Hahn","authors":"Rapha\\\"el Hahn, Thomas Battard, Oscar Boucher, Yan J. Picard, Hans\n Lignier, Daniel Comparat, Nolwenn-Amandine Keriel, Colin Lopez, Emanuel\n Oswald, Morgan Reveillard, Matthieu Viteau","title":"Comparative analysis of recirculating and collimating cesium ovens","comments":"This article may be downloaded for personal use only. Any other use\n requires prior permission of the author and AIP Publishing. This article\n appeared in Rev Sci Instrum 1 April 2022; 93 (4): 043302 and may be found at\n https://pubs.aip.org/aip/rsi/article/93/4/043302/2848701","journal-ref":"Rev Sci Instrum 1 April 2022; 93 (4): 043302","doi":"10.1063/5.0085838","report-no":null,"categories":"physics.atom-ph physics.ins-det","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We have performed a study of several cesium oven designs. A comparison\nbetween recirculating (or sticking-wall) or collimating (or reemitting-wall)\novens is made in order to extract the most efficient design in terms of beam\nbrightness. Unfortunately, non-reproducible behaviors have been observed, and\nthe most often observed output flux is similar to the sticking-wall case, which\nis the lowest theoretical value of the two cases, with a beam brightness close\nto $10^{18}$ at.sr$^{-1}$.s$^{-1}$.cm$^{-2}$. The reason of this universally\nobserved behavior is unclear despite having tested several materials for the\ncollimating tube. Conclusion on possible improved design based on sticking of\ncesium on several (un)cleaned surface is given.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:08:11 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Hahn","Rapha\u00ebl",""],["Battard","Thomas",""],["Boucher","Oscar",""],["Picard","Yan J.",""],["Lignier","Hans",""],["Comparat","Daniel",""],["Keriel","Nolwenn-Amandine",""],["Lopez","Colin",""],["Oswald","Emanuel",""],["Reveillard","Morgan",""],["Viteau","Matthieu",""]]}
+{"id":"2308.16608","submitter":"Wei Liu","authors":"Daniele Barducci, Wei Liu, Arsenii Titov, Zeren Simon Wang, Yu Zhang","title":"Probing the dipole portal to heavy neutral leptons via meson decays at\n the high-luminosity LHC","comments":"16 pages+refs, 5 figures, 2 tables","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph hep-ex","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We consider the dipole portal to sterile neutrinos, also called heavy neutral\nleptons (HNLs). The dipole interaction with the photon leads to HNL production\nin meson decays, as well as triggers the HNL decay into an active neutrino and\na photon. HNLs with masses of order of 0.01-1 GeV are naturally long-lived if\nthe dipole coupling is sufficiently small. We perform Monte-Carlo simulations\nand derive the sensitivities of the proposed FASER2 and FACET long-lived\nparticle experiments to HNLs produced via the dipole operator in meson decays\nat the high-luminosity LHC. Our findings show that these future detectors will\nbe complementary to each other, as well as to existing experiments, and will be\nable to probe new parts of the parameter space, especially in the case of the\ndipole operator coupled to the tau neutrino.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:08:53 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Barducci","Daniele",""],["Liu","Wei",""],["Titov","Arsenii",""],["Wang","Zeren Simon",""],["Zhang","Yu",""]]}
+{"id":"2308.16609","submitter":"Zhengyang Mao","authors":"Siyu Yi, Zhengyang Mao, Wei Ju, Yongdao Zhou, Luchen Liu, Xiao Luo,\n and Ming Zhang","title":"Towards Long-Tailed Recognition for Graph Classification via\n Collaborative Experts","comments":"Accepted by IEEE Transactions on Big Data (TBD 2024)","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI cs.IR cs.SI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Graph classification, aiming at learning the graph-level representations for\neffective class assignments, has received outstanding achievements, which\nheavily relies on high-quality datasets that have balanced class distribution.\nIn fact, most real-world graph data naturally presents a long-tailed form,\nwhere the head classes occupy much more samples than the tail classes, it thus\nis essential to study the graph-level classification over long-tailed data\nwhile still remaining largely unexplored. However, most existing long-tailed\nlearning methods in visions fail to jointly optimize the representation\nlearning and classifier training, as well as neglect the mining of the\nhard-to-classify classes. Directly applying existing methods to graphs may lead\nto sub-optimal performance, since the model trained on graphs would be more\nsensitive to the long-tailed distribution due to the complex topological\ncharacteristics. Hence, in this paper, we propose a novel long-tailed\ngraph-level classification framework via Collaborative Multi-expert Learning\n(CoMe) to tackle the problem. To equilibrate the contributions of head and tail\nclasses, we first develop balanced contrastive learning from the view of\nrepresentation learning, and then design an individual-expert classifier\ntraining based on hard class mining. In addition, we execute gated fusion and\ndisentangled knowledge distillation among the multiple experts to promote the\ncollaboration in a multi-expert framework. Comprehensive experiments are\nperformed on seven widely-used benchmark datasets to demonstrate the\nsuperiority of our method CoMe over state-of-the-art baselines.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:12:32 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Yi","Siyu",""],["Mao","Zhengyang",""],["Ju","Wei",""],["Zhou","Yongdao",""],["Liu","Luchen",""],["Luo","Xiao",""],["Zhang","Ming",""]]}
+{"id":"2308.16610","submitter":"Daiki Mizuno","authors":"Toyohiko Aiki, Daiki Mizuno, and Ken Shirakawa","title":"A Class of Initial-Boundary Value Problems Governed by Pseudo-Parabolic\n Weighted Total Variation Flows","comments":"31 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.AP","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this paper, we consider a class of initial-boundary value problems\ngoverned by pseudo-parabolic total variation flows. The principal\ncharacteristic of our problem lies in the velocity term of the diffusion flux,\na feature that can bring about stronger regularity than what is found in\nstandard parabolic PDEs. Meanwhile, our total variation flow contains singular\ndiffusion, and this singularity may lead to a degeneration of the regularity of\nsolution. The objective of this paper is to clarify the power balance between\nthese conflicting effects. Consequently, we will present mathematical results\nconcerning the well-posedness and regularity of the solution in the Main\nTheorems of this paper.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:14:17 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Aiki","Toyohiko",""],["Mizuno","Daiki",""],["Shirakawa","Ken",""]]}
+{"id":"2308.16611","submitter":"Sohail Ahmed Khan","authors":"Eivind Moholdt, Sohail Ahmed Khan, Duc-Tien Dang-Nguyen","title":"Detecting Out-of-Context Image-Caption Pairs in News: A\n Counter-Intuitive Method","comments":"ACM International Conference on Content-Based Multimedia Indexing\n (CBMI '23)","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The growth of misinformation and re-contextualized media in social media and\nnews leads to an increasing need for fact-checking methods. Concurrently, the\nadvancement in generative models makes cheapfakes and deepfakes both easier to\nmake and harder to detect. In this paper, we present a novel approach using\ngenerative image models to our advantage for detecting Out-of-Context (OOC) use\nof images-caption pairs in news. We present two new datasets with a total of\n$6800$ images generated using two different generative models including (1)\nDALL-E 2, and (2) Stable-Diffusion. We are confident that the method proposed\nin this paper can further research on generative models in the field of\ncheapfake detection, and that the resulting datasets can be used to train and\nevaluate new models aimed at detecting cheapfakes. We run a preliminary\nqualitative and quantitative analysis to evaluate the performance of each image\ngeneration model for this task, and evaluate a handful of methods for computing\nimage similarity.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:16:59 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Moholdt","Eivind",""],["Khan","Sohail Ahmed",""],["Dang-Nguyen","Duc-Tien",""]]}
+{"id":"2308.16612","submitter":"Shuang Xu","authors":"Shuang Xu, Yifan Wang, Zixiang Zhao, Jiangjun Peng, Xiangyong Cao,\n Deyu Meng","title":"Neural Gradient Regularizer","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV eess.IV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Owing to its significant success, the prior imposed on gradient maps has\nconsistently been a subject of great interest in the field of image processing.\nTotal variation (TV), one of the most representative regularizers, is known for\nits ability to capture the sparsity of gradient maps. Nonetheless, TV and its\nvariants often underestimate the gradient maps, leading to the weakening of\nedges and details whose gradients should not be zero in the original image.\nRecently, total deep variation (TDV) has been introduced, assuming the sparsity\nof feature maps, which provides a flexible regularization learned from\nlarge-scale datasets for a specific task. However, TDV requires retraining when\nthe image or task changes, limiting its versatility. In this paper, we propose\na neural gradient regularizer (NGR) that expresses the gradient map as the\noutput of a neural network. Unlike existing methods, NGR does not rely on the\nsparsity assumption, thereby avoiding the underestimation of gradient maps. NGR\nis applicable to various image types and different image processing tasks,\nfunctioning in a zero-shot learning fashion, making it a versatile and\nplug-and-play regularizer. Extensive experimental results demonstrate the\nsuperior performance of NGR over state-of-the-art counterparts for a range of\ndifferent tasks, further validating its effectiveness and versatility.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:19:23 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Xu","Shuang",""],["Wang","Yifan",""],["Zhao","Zixiang",""],["Peng","Jiangjun",""],["Cao","Xiangyong",""],["Meng","Deyu",""]]}
+{"id":"2308.16613","submitter":"Jie Qin","authors":"Jie Qin","title":"The Brown-Halmos theorems on the Fock space","comments":"14 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CV math.FA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper, we extend the Brown-Halmos theorems to the Fock space and\ninvestigate the range of the Berezin transform. We observe that there are many\nnon-pluriharmonic functions $u$ that can be written as a finite sum\n$B(u)=\\sum_lf_l\\overline{g_l}$, where $f_l,g_l$ are holomorphic functions\nbelonging to the class $\\mathrm{Sym}(\\mathbb{C})^n$. In addition, we answer the\nzero-product problem posed by Bauer and Le in 2011. Our results reveal that the\nBrown-Halmos theorems on the Fock space are more complicated than that on the\nclassical Bergman space.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:19:35 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Qin","Jie",""]]}
+{"id":"2308.16614","submitter":"Eunju Shin","authors":"Eunju Shin","title":"Character varieties on a four-holed sphere","comments":"12 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.NT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" For each $k\\in\\mathbb{A}^4(\\mathbb{C})$, consider the character variety $X_k$\non a four-holed sphere. We prove that it is decidable whether or not any two\nintegral solutions of $X_k$ are in the same mapping class group orbit. For\nthis, using a delta map and Vieta maps, we will introduce graphs corresponding\nto the orbits and observe the properties of vertices on the graph.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:20:09 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Shin","Eunju",""]]}
+{"id":"2308.16615","submitter":"Lossan Bonde","authors":"Lossan Bonde, Severin Dembele","title":"High Accuracy Location Information Extraction from Social Network Texts\n Using Natural Language Processing","comments":null,"journal-ref":"International Journal on Natural Language Computing (IJNLC)\n Vol.12, No.4, August 2023","doi":"10.5121/ijnlc.2023.12401","report-no":null,"categories":"cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Terrorism has become a worldwide plague with severe consequences for the\ndevelopment of nations. Besides killing innocent people daily and preventing\neducational activities from taking place, terrorism is also hindering economic\ngrowth. Machine Learning (ML) and Natural Language Processing (NLP) can\ncontribute to fighting terrorism by predicting in real-time future terrorist\nattacks if accurate data is available. This paper is part of a research project\nthat uses text from social networks to extract necessary information to build\nan adequate dataset for terrorist attack prediction. We collected a set of 3000\nsocial network texts about terrorism in Burkina Faso and used a subset to\nexperiment with existing NLP solutions. The experiment reveals that existing\nsolutions have poor accuracy for location recognition, which our solution\nresolves. We will extend the solution to extract dates and action information\nto achieve the project's goal.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:21:24 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Bonde","Lossan",""],["Dembele","Severin",""]]}
+{"id":"2308.16616","submitter":"Jian-Hua Gao","authors":"Jian-Hua Gao, Shi-Zheng Yang","title":"Revisit spin effects induced by thermal vorticity","comments":"23 pages, no figures","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph hep-th nucl-th","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We revisit the spin effects induced by thermal vorticity by calculating them\ndirectly from the spin-dependent distribution functions. For the spin-1/2\nparticles, we give the polarization up to the first order of thermal vorticity\nand compare it with the usual result calculated from the spin vector. For the\nspin-1 particles, we give the spin alignment in terms of thermal vorticity.\nAlthough the spin alignment receives only second-order contribution from\nthermal vorticity, we find that some non-diagonal elements in spin density\nmatrix can receive first order contribution. We also find that the spin effects\nfor both Dirac and vector particles will receive extra contribution when the\nspin direction is associated with the particle's momentum.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:21:54 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Gao","Jian-Hua",""],["Yang","Shi-Zheng",""]]}
+{"id":"2308.16617","submitter":"Tram Thi Ngoc Nguyen","authors":"Tram Thi Ngoc Nguyen","title":"Bi-level iterative regularization for inverse problems in nonlinear PDEs","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.NA cs.NA math.OC","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We investigate the ill-posed inverse problem of recovering unknown spatially\ndependent parameters in nonlinear evolution PDEs. We propose a bi-level\nLandweber scheme, where the upper-level parameter reconstruction embeds a\nlower-level state approximation. This can be seen as combining the classical\nreduced setting and the newer all-at-once setting, allowing us to,\nrespectively, utilize well-posedness of the parameter-to-state map, and to\nbypass having to solve nonlinear PDEs exactly. Using this, we derive stopping\nrules for lower- and upper-level iterations and convergence of the bi-level\nmethod. We discuss application to parameter identification for the\nLandau-Lifshitz-Gilbert equation in magnetic particle imaging.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:22:52 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Nguyen","Tram Thi Ngoc",""]]}
+{"id":"2308.16618","submitter":"Federico Milano","authors":"Federico Milano, Bibi Alhanjari and Georgios Tzounas","title":"Enhancing Frequency Control through Rate of Change of Voltage Feedback","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SY cs.SY","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" This letter proposes a simple and inexpensive technique to improve the\nfrequency control of distributed energy resources. The proposed control\nconsists in modifying the conventional estimated bus frequency signal with an\nadditional feedback signal that utilizes the rate of change of the voltage\nmagnitude measured at the same bus. The case study showcases the benefits of\nthe proposed control and compares its performance with standard frequency\ncontrol schemes through time-domain simulations.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:24:05 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Milano","Federico",""],["Alhanjari","Bibi",""],["Tzounas","Georgios",""]]}
+{"id":"2308.16619","submitter":"Max Piochowiak","authors":"Max Piochowiak, Carsten Dachsbacher","title":"Fast Compressed Segmentation Volumes for Scientific Visualization","comments":"IEEE Vis 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.GR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Voxel-based segmentation volumes often store a large number of labels and\nvoxels, and the resulting amount of data can make storage, transfer, and\ninteractive visualization difficult. We present a lossless compression\ntechnique which addresses these challenges. It processes individual small\nbricks of a segmentation volume and compactly encodes the labelled regions and\ntheir boundaries by an iterative refinement scheme. The result for each brick\nis a list of labels, and a sequence of operations to reconstruct the brick\nwhich is further compressed using rANS-entropy coding. As the relative\nfrequencies of operations are very similar across bricks, the entropy coding\ncan use global frequency tables for an entire data set which enables efficient\nand effective parallel (de)compression. Our technique achieves high throughput\n(up to gigabytes per second both for compression and decompression) and strong\ncompression ratios of about 1% to 3% of the original data set size while being\napplicable to GPU-based rendering. We evaluate our method for various data sets\nfrom different fields and demonstrate GPU-based volume visualization with\non-the-fly decompression, level-of-detail rendering (with optional on-demand\nstreaming of detail coefficients to the GPU), and a caching strategy for\ndecompressed bricks for further performance improvement.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:25:54 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Piochowiak","Max",""],["Dachsbacher","Carsten",""]]}
+{"id":"2308.16620","submitter":"Gareth Jones","authors":"G. C. Jones, H. Ubler, M. Perna, S. Arribas, A. J. Bunker, S.\n Carniani, S. Charlot, R. Maiolino, B. Rodriguez Del Pino, C. Willott, R. A.\n A. Bowler, T. Boker, A. J. Cameron, J. Chevallard, G. Cresci, M. Curti, F.\n D'Eugenio, N. Kumari, A. Saxena, J. Scholtz, G. Venturi, J. Witstok","title":"GA-NIFS: JWST/NIRSpec IFU observations of HFLS3 reveal a dense galaxy\n group at z~6.3","comments":"23 pages, 14 figures, submitted to A&A","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Massive, starbursting galaxies in the early Universe represent some of the\nmost extreme objects in the study of galaxy evolution. One such source is HFLS3\n(z~6.34), which was originally identified as an extreme starburst galaxy with\nmild gravitational magnification. Here, we present new observations of HFLS3\nwith the JWST/NIRSpec IFU in both low (PRISM/CLEAR; R~100) and high spectral\nresolution (G395H/290LP; R~2700), with high spatial resolution (~0.1\") and\nsensitivity. Thanks to the combination of the NIRSpec data and a new lensing\nmodel with accurate spectroscopic redshifts, we find that the 3\"x3\" field is\ncrowded, with a lensed arc (C, z=6.3425+/-0.0002), two galaxies to the south\n(S1 and S2, z=6.3592+/-0.0001), two galaxies to the west (W1,\nz=6.3550+/-0.0001; W2, z=6.3628+/-0.0001), and two low-redshift interlopers\n(G1, z=3.4806+/-0.0001; G2, z=2.00+/-0.01). We present spectral fits and\nmorpho-kinematic maps for each bright emission line (e.g., [OIII]5007, Halpha,\n[NII]6584) from the R2700 data for all sources except G2. From a line ratio\nanalysis, the galaxies in C are likely powered by star formation, while we\ncannot rule out or confirm the presence of AGN in the other high-redshift\nsources. We perform gravitational lens modelling, finding evidence for a\ntwo-source composition of the lensed central object and a comparable\nmagnification factor (mu=2.1-2.4) to previous work. The projected distances and\nvelocity offsets of each galaxy suggest that they will merge within the next\n~1Gyr. Finally, we examine the dust extinction-corrected SFR of each z>6\nsource, finding that the total star formation (460+/-90 Msol/yr,\nmagnification-corrected) is distributed across the six z~6.34-6.36 objects over\na region of diameter ~11kpc. Altogether, this suggests that HFLS3 is not a\nsingle starburst galaxy, but instead is a merging system of star-forming\ngalaxies in the Epoch of Reionization.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:28:16 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Jones","G. C.",""],["Ubler","H.",""],["Perna","M.",""],["Arribas","S.",""],["Bunker","A. J.",""],["Carniani","S.",""],["Charlot","S.",""],["Maiolino","R.",""],["Del Pino","B. Rodriguez",""],["Willott","C.",""],["Bowler","R. A. A.",""],["Boker","T.",""],["Cameron","A. J.",""],["Chevallard","J.",""],["Cresci","G.",""],["Curti","M.",""],["D'Eugenio","F.",""],["Kumari","N.",""],["Saxena","A.",""],["Scholtz","J.",""],["Venturi","G.",""],["Witstok","J.",""]]}
+{"id":"2308.16621","submitter":"Raymond Wong","authors":"Raymond Wong, Anh Tran, Bogdan Dovgyy, Claudia Santos Maldonado,\n Minh-Son Pham","title":"Meta-analysis of literature data in metal additive manufacturing: What\n can we (and the machine) learn from reported data?","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mtrl-sci physics.app-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Obtaining in-depth understanding of the relationships between the additive\nmanufacturing (AM) process, microstructure and mechanical properties is crucial\nto overcome barriers in AM. In this study, database of metal AM was created\nthanks to many literature studies. Subsequently meta-analyses on the data was\nundertaken to provide insights into whether such relationships are well\nreflected in the literature data. The analyses help reveal the bias and what\nthe data tells us, and to what extent machine learning (ML) can learn from the\ndata. The first major bias is associated with common practices in identifying\nthe process based on optimizing the consolidation. Most reports were for\nconsolidation while data on microstructure and mechanical properties was\nsignificantly less. In addition, only high consolidation values was provided,\nso ML was not able to learn the full spectrum of the process - consolidation\nrelationship. The common identification of process maps based on only\nconsolidation also poses another bias as mechanical properties that ultimately\ngovern the quality of an AM build are controlled not only by the consolidation,\nbut also microstructure. Meta-analysis of the literature data also shows weak\ncorrelation between process with consolidation and mechanical properties. This\nweak correlation is attributed to the stated biases and the non-monotonic and\nnon-linear relationships between the process and quality variables.\nFortunately, trained ML models capture well the influence and interactions\nbetween process parameters and quality variables, and predicts accurately the\nyield stress, suggesting that the correlation between process, microstructure\nand yield strength is well reflected in the data. Lastly, due to the current\nlimitation in the process map identification, we propose to identify the\nprocess map based on not only the consolidation, but also mechanical\nproperties.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:29:26 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Wong","Raymond",""],["Tran","Anh",""],["Dovgyy","Bogdan",""],["Maldonado","Claudia Santos",""],["Pham","Minh-Son",""]]}
+{"id":"2308.16622","submitter":"Lars-Peter Meyer","authors":"Lars-Peter Meyer, Johannes Frey, Kurt Junghanns, Felix Brei, Kirill\n Bulert, Sabine Gr\\\"under-Fahrer, Michael Martin","title":"Developing a Scalable Benchmark for Assessing Large Language Models in\n Knowledge Graph Engineering","comments":"To be published in SEMANTICS 2023 poster track proceedings. SEMANTICS\n 2023 EU: 19th International Conference on Semantic Systems, September 20-22,\n 2023, Leipzig, Germany","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AI cs.CL cs.DB","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" As the field of Large Language Models (LLMs) evolves at an accelerated pace,\nthe critical need to assess and monitor their performance emerges. We introduce\na benchmarking framework focused on knowledge graph engineering (KGE)\naccompanied by three challenges addressing syntax and error correction, facts\nextraction and dataset generation. We show that while being a useful tool, LLMs\nare yet unfit to assist in knowledge graph generation with zero-shot prompting.\nConsequently, our LLM-KG-Bench framework provides automatic evaluation and\nstorage of LLM responses as well as statistical data and visualization tools to\nsupport tracking of prompt engineering and model performance.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:31:19 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Meyer","Lars-Peter",""],["Frey","Johannes",""],["Junghanns","Kurt",""],["Brei","Felix",""],["Bulert","Kirill",""],["Gr\u00fcnder-Fahrer","Sabine",""],["Martin","Michael",""]]}
+{"id":"2308.16623","submitter":"Shruti Tandon","authors":"Vladimir Garcia-Morales, Shruti Tandon, Juergen Kurths, R. I. Sujith","title":"Universality of oscillatory instabilities in fluid mechanical systems","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.flu-dyn","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Oscillatory instability (OI) arises out of turbulent states in various fluid\nmechanical systems such as aero-acoustic, thermoacoustic and aeroelastic\nsystems. For the time series of the relevant dynamic variable at the onset of\nthe OI, universal scaling behaviors have been experimentally uncovered via the\nHurst exponent and certain spectral measures. By means of a center manifold\nreduction, the spatiotemporal dynamics of these real systems can be mapped to a\ncomplex Ginzburg-Landau equation with a linear global coupling (GCGLE). In this\nletter, we show that the GCGLE is able to capture the universal behavior of the\nOI, elucidating it as a transition between defect to phase turbulence mediated\nby the global coupling.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:37:59 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Garcia-Morales","Vladimir",""],["Tandon","Shruti",""],["Kurths","Juergen",""],["Sujith","R. I.",""]]}
+{"id":"2308.16624","submitter":"Matt Visser","authors":"Joshua Baines (Victoria University of Wellington), Rudeep Gaur\n (Victoria University of Wellington), and Matt Visser (Victoria University of\n Wellington)","title":"Defect wormholes are defective","comments":"17 pages; 41 references","journal-ref":null,"doi":null,"report-no":null,"categories":"gr-qc","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The various \"defect wormholes\" developed by Klinkhamer have recently\nattracted considerable attention -- especially in view of the fact that the\nsimplest example, the so-called \"vacuum defect wormhole\", was claimed to be an\neverywhere-vacuum everywhere-Ricci-flat exact solution to the Einstein\nequations. This claim has been conclusively refuted by Feng, and in the current\narticle we take a deeper look at exactly what goes wrong. The central issue is\nthis: Although Klinkhamer's specific representation of the metric g_{ab} is\nsmooth (C^\\infty) his inverse metric g^{ab} is not even everywhere continuous\n(C^0), being undefined at the wormhole throat. This situation implies that one\nshould very carefully investigate curvature tensors at the throat using the\nIsrael--Lanczos--Sen thin-shell formalism. Doing so reveals the presence of a\ndelta-function energy-condition-violating thin shell of matter at the wormhole\nthroat. The \"defect wormholes\" are thus revealed to be quite ordinary\n\"cut-and-paste\" thin-shell wormholes, but represented in a coordinate system\nwhich is unfortunately pathological at exactly the same place that all the\ninteresting physics occurs.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:42:36 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Baines","Joshua","","Victoria University of Wellington"],["Gaur","Rudeep","","Victoria University of Wellington"],["Visser","Matt","","Victoria University of\n Wellington"]]}
+{"id":"2308.16625","submitter":"Benedikt Zerulla","authors":"Benedikt Zerulla, Dominik Beutel, Christof Holzer, Ivan\n Fernandez-Corbaton, Carsten Rockstuhl, Marjan Krsti\\'c","title":"A Multi-Scale Approach to Simulate the Nonlinear Optical Response of\n Molecular Nanomaterials","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.optics physics.comp-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Nonlinear optics is essential for many recent photonic technologies. Here, we\nintroduce a novel multi-scale approach to simulate the nonlinear optical\nresponse of molecular nanomaterials combining ab initio quantum-chemical and\nclassical Maxwell-scattering computations. In this approach, the first\nhyperpolarizability tensor is computed with time-dependent density-functional\ntheory and translated into a multi-scattering formalism that considers the\noptical interaction between neighboring molecules. A novel object is introduce\nto perform this transition from quantum-chemistry to classical scattering\ntheory: the Hyper-Transition(T)-matrix. With this object at hand, the nonlinear\noptical response from single molecules and also from entire photonic devices\ncan be computed, incorporating the full tensorial and dispersive nature of the\noptical response of the molecules. To demonstrate the applicability of our\nnovel approach, the generation of a second-harmonic signal from a thin film of\na Urea molecular crystal is computed and compared to more traditional\nsimulations. Furthermore, an optical cavity is designed, which enhances the\nsecond-harmonic response of the molecular film by more than two orders of\nmagnitude. Our approach is highly versatile and accurate and can be the working\nhorse for the future exploration of nonlinear photonic molecular materials in\nstructured photonic environments.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:45:44 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zerulla","Benedikt",""],["Beutel","Dominik",""],["Holzer","Christof",""],["Fernandez-Corbaton","Ivan",""],["Rockstuhl","Carsten",""],["Krsti\u0107","Marjan",""]]}
+{"id":"2308.16626","submitter":"Benjalmin Dequ\\^ene","authors":"Benjamin Dequ\\^ene","title":"Canonically Jordan recoverable categories for modules over the path\n algebra of $A_n$ type quivers","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.RT math.CO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Let $Q$ be a quiver of $A_n$ type and $\\mathbb{K}$ be an algebraically closed\nfield. A nilpotent endomorphism of a quiver representation induces a linear\ntransformation of the vector space at each vertex. Generically among all\nnilpotent endomorphisms of a fixed representation $X$, there exists a\nwell-defined Jordan form of each of these linear transformations\n$\\operatorname{GenJF}(X)$, called the generic Jordan form data of $X$. A\nsubcategory of $\\operatorname{rep}(Q)$ is Jordan recoverable if we can recover\n$X$ up to isomorphism from its generic Jordan form data.\n There is a procedure which allows one to invert the map from representations\nto generic Jordan form data. The subcategories for which this procedure works\nare called canonically Jordan recoverable. We focus on the subcategories of\n$\\operatorname{rep}(Q)$ that are canonically Jordan recoverable, and we give a\ncombinatorial characterization of them.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:46:27 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Dequ\u00eane","Benjamin",""]]}
+{"id":"2308.16627","submitter":"Maryam Haditale","authors":"M. Haditale and B. Malekolkalami","title":"Thermodynamic Properties of Regular Phantom Black Hole","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"gr-qc","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The Regular Phantom Black Holes (RPBH)s are of theoretical and observational\nimportance, and some properties have been studied. In this work, we study some\nof the thermodynamical properties such as entropy, and temperature, ... in\nthree asymptotically spacetimes: flat, de--Sitter (dS), and Anti-de Sitter\n(AdS). Many of the RPBH properties, including horizon radius, are (directly or\nindirectly) dependent on a scale parameter b. Due to the slightly different\nstructure from Schwarzschild--metrics, the method to express relations between\nthermodynamical variables requires a new function of the scale parameter. We\nalso imply the local and global thermodynamic stability through the Heat\nCapacity (HC) and Gibbs Energy (GB), respectively. The calculations and graphs\nshow the results, in the flat background, are very similar to Schwarzschild\nones. Also, some results show that the asymptotically AdS-RPBH is more\ncompatible with physical laws than the dS and flat backgrounds.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:49:19 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Haditale","M.",""],["Malekolkalami","B.",""]]}
+{"id":"2308.16628","submitter":"Sunny Vagnozzi","authors":"Sunny Vagnozzi","title":"Seven hints that early-time new physics alone is not sufficient to solve\n the Hubble tension","comments":"39 pages, 18 sub-figures arranged into 11 figures, most of which\n reproduced (with permission) from other works, many references, \"alone\" is\n the keyword here. A very pictorial summary of the whole paper is in Fig. 11,\n not made by me. Accepted for publication in Universe as an invited\n opinion/review paper in the special issue \"Modified Gravity Approaches to the\n Tensions of \\Lambda CDM\"","journal-ref":"Universe 9 (2023) 393","doi":"10.3390/universe9090393","report-no":null,"categories":"astro-ph.CO gr-qc hep-ph hep-th","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The Hubble tension has now grown to a level of significance which can no\nlonger be ignored and calls for a solution which, despite a huge number of\nattempts, has so far eluded us. Significant efforts in the literature have\nfocused on early-time modifications of $\\Lambda$CDM, introducing new physics\noperating prior to recombination and reducing the sound horizon. In this\nopinion paper I argue that early-time new physics alone will always fall short\nof fully solving the Hubble tension. I base my arguments on seven independent\nhints, related to 1) the ages of the oldest astrophysical objects, 2)\nconsiderations on the sound horizon-Hubble constant degeneracy directions in\ncosmological data, 3) the important role of cosmic chronometers, 4) a number of\n``descending trends'' observed in a wide variety of low-redshift datasets, 5)\nthe early integrated Sachs-Wolfe effect as an early-time consistency test of\n$\\Lambda$CDM, 6) early-Universe physics insensitive and uncalibrated cosmic\nstandard constraints on the matter density, and finally 7) equality\nwavenumber-based constraints on the Hubble constant from galaxy power spectrum\nmeasurements. I argue that a promising way forward should ultimately involve a\ncombination of early- and late-time (but non-local -- in a cosmological sense,\ni.e. at high redshift) new physics, as well as local (i.e. at $z \\sim 0$) new\nphysics, and I conclude by providing reflections with regards to potentially\ninteresting models which may also help with the $S_8$ tension.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:49:29 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Vagnozzi","Sunny",""]]}
+{"id":"2308.16629","submitter":"Katarzyna (Kasia) Tych","authors":"Laura-Marie Silbermann, Benjamin Vermeer, Sonja Schmid, Katarzyna\n (Kasia) Tych","title":"The known unknowns of the Hsp90 chaperone","comments":"29 pages, 4 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"q-bio.BM physics.bio-ph","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" Molecular chaperones are vital proteins that maintain protein homeostasis by\nassisting in protein folding, activation, degradation, and stress protection.\nAmong them, heat-shock protein 90 (Hsp90) stands out as an essential\nproteostasis hub in eukaryotes, chaperoning hundreds of \"clients\" (substrates).\nAfter decades of research, several \"known unknowns\" about the molecular\nfunction of Hsp90 remain unanswered, hampering rational drug design for the\ntreatment of cancers, neurodegenerative and other diseases. We highlight three\nfundamental open questions, reviewing the current state of the field for each,\nand discuss new opportunities, including single-molecule technologies, to\nanswer the known unknowns of the Hsp90 chaperone.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:51:07 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Silbermann","Laura-Marie","","Kasia"],["Vermeer","Benjamin","","Kasia"],["Schmid","Sonja","","Kasia"],["Katarzyna","","","Kasia"],["Tych","",""]]}
+{"id":"2308.16630","submitter":"Joaqu\\'in D\\'iaz Boils","authors":"Joaquin Diaz Boils, Orlando Galdames Bravo","title":"A lattice-ordered monoid on multilayer networks","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.AC math.GR math.OA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In the present paper we introduce a lattice-ordered partial monoid structure\non a suitable set of multilayer networks. We first study a kind of mappings\nthat preserve the partial order and describe the order structure. After that we\ndefine the lattice-ordered monoid and deduce the main properties.\nlattice-ordered monoid, multilayer network, interior mapping, partial\noperation.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:51:31 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Boils","Joaquin Diaz",""],["Bravo","Orlando Galdames",""]]}
+{"id":"2308.16631","submitter":"Marceli Wac","authors":"Marceli Wac, Raul Santos-Rodriguez, Chris McWilliams and Christopher\n Bourdeaux","title":"Strategies for engaging clinical participants in the co-design of\n software for healthcare domains","comments":"4 pages, 4 figures, presented at Workgroup on Interactive Systems in\n Healthcare (WISH) Symposium at ACM (Association of Computing Machinery) CHI\n conference on Human Factors in Computing Systems in Hamburg 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.HC","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Co-design is an effective method for designing software, but implementing it\nwithin the clinical setting comes with a set of unique challenges. This makes\nrecruitment and engagement of participants difficult, which has been\ndemonstrated in our study. Our work focused on designing and evaluating a data\nannotation tool, however, different types of interventions had to be carried\nout due to poor engagement with the study. We evaluated the effectiveness and\nfeasibility of each of these strategies, their applicability to different\nstages of co-design research and discussed the barriers to participation\npresent among participants from a clinical background.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 10:51:35 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Wac","Marceli",""],["Santos-Rodriguez","Raul",""],["McWilliams","Chris",""],["Bourdeaux","Christopher",""]]}
+{"id":"2308.16632","submitter":"Changli Wu","authors":"Changli Wu, Yiwei Ma, Qi Chen, Haowei Wang, Gen Luo, Jiayi Ji,\n Xiaoshuai Sun","title":"3D-STMN: Dependency-Driven Superpoint-Text Matching Network for\n End-to-End 3D Referring Expression Segmentation","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In 3D Referring Expression Segmentation (3D-RES), the earlier approach adopts\na two-stage paradigm, extracting segmentation proposals and then matching them\nwith referring expressions. However, this conventional paradigm encounters\nsignificant challenges, most notably in terms of the generation of lackluster\ninitial proposals and a pronounced deceleration in inference speed. Recognizing\nthese limitations, we introduce an innovative end-to-end Superpoint-Text\nMatching Network (3D-STMN) that is enriched by dependency-driven insights. One\nof the keystones of our model is the Superpoint-Text Matching (STM) mechanism.\nUnlike traditional methods that navigate through instance proposals, STM\ndirectly correlates linguistic indications with their respective superpoints,\nclusters of semantically related points. This architectural decision empowers\nour model to efficiently harness cross-modal semantic relationships, primarily\nleveraging densely annotated superpoint-text pairs, as opposed to the more\nsparse instance-text pairs. In pursuit of enhancing the role of text in guiding\nthe segmentation process, we further incorporate the Dependency-Driven\nInteraction (DDI) module to deepen the network's semantic comprehension of\nreferring expressions. Using the dependency trees as a beacon, this module\ndiscerns the intricate relationships between primary terms and their associated\ndescriptors in expressions, thereby elevating both the localization and\nsegmentation capacities of our model. Comprehensive experiments on the\nScanRefer benchmark reveal that our model not only set new performance\nstandards, registering an mIoU gain of 11.7 points but also achieve a\nstaggering enhancement in inference speed, surpassing traditional methods by\n95.7 times. The code and models are available at\nhttps://github.com/sosppxo/3D-STMN.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:00:03 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Wu","Changli",""],["Ma","Yiwei",""],["Chen","Qi",""],["Wang","Haowei",""],["Luo","Gen",""],["Ji","Jiayi",""],["Sun","Xiaoshuai",""]]}
+{"id":"2308.16633","submitter":"Chenwei Wang","authors":"Chenwei Wang, Xiaoyu Liu, Yulin Huang, Siyi Luo, Jifang Pei, Jianyu\n Yang, Deqing Mao","title":"Semi-Supervised SAR ATR Framework with Transductive Auxiliary\n Segmentation","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Convolutional neural networks (CNNs) have achieved high performance in\nsynthetic aperture radar (SAR) automatic target recognition (ATR). However, the\nperformance of CNNs depends heavily on a large amount of training data. The\ninsufficiency of labeled training SAR images limits the recognition performance\nand even invalidates some ATR methods. Furthermore, under few labeled training\ndata, many existing CNNs are even ineffective. To address these challenges, we\npropose a Semi-supervised SAR ATR Framework with transductive Auxiliary\nSegmentation (SFAS). The proposed framework focuses on exploiting the\ntransductive generalization on available unlabeled samples with an auxiliary\nloss serving as a regularizer. Through auxiliary segmentation of unlabeled SAR\nsamples and information residue loss (IRL) in training, the framework can\nemploy the proposed training loop process and gradually exploit the information\ncompilation of recognition and segmentation to construct a helpful inductive\nbias and achieve high performance. Experiments conducted on the MSTAR dataset\nhave shown the effectiveness of our proposed SFAS for few-shot learning. The\nrecognition performance of 94.18\\% can be achieved under 20 training samples in\neach class with simultaneous accurate segmentation results. Facing variances of\nEOCs, the recognition ratios are higher than 88.00\\% when 10 training samples\neach class.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:00:05 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Wang","Chenwei",""],["Liu","Xiaoyu",""],["Huang","Yulin",""],["Luo","Siyi",""],["Pei","Jifang",""],["Yang","Jianyu",""],["Mao","Deqing",""]]}
+{"id":"2308.16634","submitter":"Yu-Gang Ma","authors":"Y. T. Cao, X. G. Deng, Y. G. Ma","title":"Effect of initial-state geometric configurations on the nuclear\n liquid-gas phase transition","comments":"10 pages, 8 figures","journal-ref":"Physical Review C 108, 024610 (2023)","doi":"10.1103/PhysRevC.108.024610","report-no":null,"categories":"nucl-th nucl-ex","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Within the framework of an extended quantum molecular dynamics model, we\nsimulated $^{40}$Ca + $^{16}$O collisions at beam energies ranging from 60 to\n150 MeV/nucleon for $^{16}$O with different $\\alpha$-cluster configurations.\nResults imply that different $\\alpha$-cluster configurations lead to different\nyields of deuteron, triton, $^3$He and $^4$He, but not for proton and neutron.\nWe discuss the effect of geometric fluctuations which are presented by double\nratios of light nuclei, namely $\\mathcal{O}_\\text{p-d-t}$ and\n$\\mathcal{O}_\\text{p-d-He}$. It is found that magnitude hierarchy of geometric\nfluctuations is chain, kite, square and tetrahedron structure of $^{16}$O.\n$\\mathcal{O}_\\text{p-d-t}$ has maximum value around 80 -- 100 MeV/nucleon which\ncould be related to liquid-gas phase transition, that is consistent with\nresults from the charge distribution of the heaviest fragments in the\ncollisions.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:02:09 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Cao","Y. T.",""],["Deng","X. G.",""],["Ma","Y. G.",""]]}
+{"id":"2308.16635","submitter":"Jin Liu","authors":"Jin Liu, Xi Wang, Xiaomeng Fu, Yesheng Chai, Cai Yu, Jiao Dai, Jizhong\n Han","title":"MFR-Net: Multi-faceted Responsive Listening Head Generation via\n Denoising Diffusion Model","comments":"Accepted by ACM MM 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" Face-to-face communication is a common scenario including roles of speakers\nand listeners. Most existing research methods focus on producing speaker\nvideos, while the generation of listener heads remains largely overlooked.\nResponsive listening head generation is an important task that aims to model\nface-to-face communication scenarios by generating a listener head video given\na speaker video and a listener head image. An ideal generated responsive\nlistening video should respond to the speaker with attitude or viewpoint\nexpressing while maintaining diversity in interaction patterns and accuracy in\nlistener identity information. To achieve this goal, we propose the\n\\textbf{M}ulti-\\textbf{F}aceted \\textbf{R}esponsive Listening Head Generation\nNetwork (MFR-Net). Specifically, MFR-Net employs the probabilistic denoising\ndiffusion model to predict diverse head pose and expression features. In order\nto perform multi-faceted response to the speaker video, while maintaining\naccurate listener identity preservation, we design the Feature Aggregation\nModule to boost listener identity features and fuse them with other\nspeaker-related features. Finally, a renderer finetuned with identity\nconsistency loss produces the final listening head videos. Our extensive\nexperiments demonstrate that MFR-Net not only achieves multi-faceted responses\nin diversity and speaker identity information but also in attitude and\nviewpoint expression.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:10:28 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Liu","Jin",""],["Wang","Xi",""],["Fu","Xiaomeng",""],["Chai","Yesheng",""],["Yu","Cai",""],["Dai","Jiao",""],["Han","Jizhong",""]]}
+{"id":"2308.16636","submitter":"Yu-Gang Ma","authors":"Ru-XIn Cao, Song Zhang, Yu-Gang Ma","title":"Effects of the $\\alpha$-cluster structure and the intrinsic momentum\n component of nuclei on the longitudinal asymmetry in relativistic heavy-ion\n collisions","comments":"10 pages, 5 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph nucl-th","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The longitudinal asymmetry in relativistic heavy-ion collisions arises from\nthe fluctuation in the number of participating nucleons. This asymmetry causes\na rapidity shift in the center of mass of the participant zone. Both the\nrapidity shift and the longitudinal asymmetry have been found to be significant\nat the top LHC energy for collisions of identical nuclei. However, much\ndiscussion of the longitudinal asymmetry has treated the initial condition as a\nnon-zero momentum only contributed only by the number of participants, i.e.,\nthe asymmetry depends only on the number of participating nucleons. In this\nwork, we consider other effects on the longitudinal asymmetry other than\nfluctuation in the number of participants, e.g. the intrinsic momentum\ndistribution as well as $\\alpha$-clustering structure in the target or\nprojectile nuclei for the collisions in the framework of a multiphase transport\n(AMPT) model. By introducing systems with different $\\alpha$-clustering\nstructure and intrinsic momentum distribution, we calculated ratio of different\nsystems' rapidity distribution and extracted expansion coefficient to analyze\nthe difference contributed by these factors. And we investigated the possible\neffect of non-Gaussian distribution on the rapidity distribution. These results\nmay help us to constrain the initial conditions in ultra-relativistic heavy-ion\ncollisions, and suggest a quantitative correction on final state measurement\nand a possible correlation between the initial condition and the final-state\nobservable in LHC and RHIC energy.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:11:37 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Cao","Ru-XIn",""],["Zhang","Song",""],["Ma","Yu-Gang",""]]}
+{"id":"2308.16637","submitter":"Daniel Siegismund","authors":"Daniel Siegismund, Mario Wieser, Stephan Heyse, Stephan Steigele","title":"Learning Channel Importance for High Content Imaging with Interpretable\n Deep Input Channel Mixing","comments":"Accepted @ DAGM German Conference on Pattern Recognition (GCPR) 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV stat.ML","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" Uncovering novel drug candidates for treating complex diseases remain one of\nthe most challenging tasks in early discovery research. To tackle this\nchallenge, biopharma research established a standardized high content imaging\nprotocol that tags different cellular compartments per image channel. In order\nto judge the experimental outcome, the scientist requires knowledge about the\nchannel importance with respect to a certain phenotype for decoding the\nunderlying biology. In contrast to traditional image analysis approaches, such\nexperiments are nowadays preferably analyzed by deep learning based approaches\nwhich, however, lack crucial information about the channel importance. To\novercome this limitation, we present a novel approach which utilizes\nmulti-spectral information of high content images to interpret a certain aspect\nof cellular biology. To this end, we base our method on image blending concepts\nwith alpha compositing for an arbitrary number of channels. More specifically,\nwe introduce DCMIX, a lightweight, scaleable and end-to-end trainable mixing\nlayer which enables interpretable predictions in high content imaging while\nretaining the benefits of deep learning based methods. We employ an extensive\nset of experiments on both MNIST and RXRX1 datasets, demonstrating that DCMIX\nlearns the biologically relevant channel importance without scarifying\nprediction performance.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:11:38 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Siegismund","Daniel",""],["Wieser","Mario",""],["Heyse","Stephan",""],["Steigele","Stephan",""]]}
+{"id":"2308.16638","submitter":"Hasan Nayir","authors":"Hasan Nayir, Erhan Karakoca, Ali G\\\"or\\c{c}in, Khalid Qaraqe","title":"Channel Estimation Using RIDNet Assisted OMP for Hybrid-field THz\n Massive MIMO Systems","comments":"Accepted to publication in ICC-2023","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SP","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" The terahertz (THz) band radio access with larger available bandwidth is\nanticipated to provide higher capacities for next-generation wireless\ncommunication systems. However, higher path loss at THz frequencies\nsignificantly limits the wireless communication range. Massive multiple-input\nmultiple-output (mMIMO) is an attractive technology to increase the Rayleigh\ndistance by generating higher gain beams using low wavelength and highly\ndirective antenna array aperture. In addition, both far-field and near-field\ncomponents of the antenna system should be considered for modelling THz\nelectromagnetic propagation, where the channel estimation for this environment\nbecomes a challenging task. This paper proposes a novel channel estimation\nmethod using a recursive information distillation network (RIDNet) together\nwith orthogonal matching pursuit (OMP) for hybrid-field THz mMIMO channels,\nincluding both far-field and near-field components. The simulation experiments\nare performed using the ray-tracing tool. The results indicate that the\nproposed RIDNet-based method consistently provides lower channel estimation\nerrors compared to the conventional OMP algorithm for all signal-to-noise ratio\n(SNR) regimes, and the performance gap becomes higher at low SNR regimes.\nFurthermore, the results imply that the same error performance of the OMP can\nbe achieved by the RIDNet-based method using a lower number of RF chains and\npilot symbols.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:15:55 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Nayir","Hasan",""],["Karakoca","Erhan",""],["G\u00f6r\u00e7in","Ali",""],["Qaraqe","Khalid",""]]}
+{"id":"2308.16639","submitter":"Anh Tung Nguyen","authors":"Anh Tung Nguyen, Andr\\'e M. H. Teixeira, Alexander Medvedev","title":"Security Allocation in Networked Control Systems under Stealthy Attacks","comments":"11 pages, 3 figures, and 1 table, journal submission","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SY cs.SY","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" This paper considers the problem of security allocation in a networked\ncontrol system under stealthy attacks in which the system is comprised of\ninterconnected subsystems represented by vertices. A malicious adversary\nselects a single vertex on which to conduct a stealthy data injection attack to\nmaximally disrupt the local performance while remaining undetected. On the\nother hand, a defender selects several vertices on which to allocate defense\nresources against the adversary. First, the objectives of the adversary and the\ndefender with uncertain targets are formulated in probabilistic ways, resulting\nin an expected worst-case impact of stealthy attacks. Next, we provide a\ngraph-theoretic necessary and sufficient condition under which the cost for the\ndefender and the expected worst-case impact of stealthy attacks are bounded.\nThis condition enables the defender to restrict the admissible actions to a\nsubset of available vertex sets. Then, we cast the problem of security\nallocation in a Stackelberg game-theoretic framework. Finally, the contribution\nof this paper is highlighted by utilizing the proposed admissible actions of\nthe defender in the context of large-scale networks. A numerical example of a\n50-vertex networked control system is presented to validate the obtained\nresults.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:16:56 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Nguyen","Anh Tung",""],["Teixeira","Andr\u00e9 M. H.",""],["Medvedev","Alexander",""]]}
+{"id":"2308.16640","submitter":"Liming Ling","authors":"Ling An and Liming Ling","title":"The Riemann-Hilbert approach for the integrable fractional\n Fokas--Lenells equation","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"nlin.SI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper, we propose a new integrable fractional Fokas--Lenells equation\nby using the completeness of the squared eigenfunctions, dispersion relation,\nand inverse scattering transform. To solve this equation, we employ the\nRiemann-Hilbert approach. Specifically, we focus on the case of the\nreflectionless potential with a simple pole for the zero boundary condition.\nAnd we provide the fractional $N$-soliton solution in determinant form.\nAdditionally, we prove the fractional one-soliton solution rigorously. Notably,\nwe demonstrate that as $|t|\\to\\infty$, the fractional $N$-soliton solution can\nbe expressed as a linear combination of $N$ fractional single-soliton\nsolutions.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:23:35 GMT"}],"update_date":"2023-09-01","authors_parsed":[["An","Ling",""],["Ling","Liming",""]]}
+{"id":"2308.16641","submitter":"Thiago Raszeja","authors":"Rodrigo Bissacot, Bruno Hideki Fukushima-Kimura, Rafael Pereira Lima,\n Thiago Raszeja","title":"Gibbs Measures on Multidimensional Spaces. Equivalences and a Groupoid\n Approach","comments":"arXiv admin note: text overlap with arXiv:2008.13727","journal-ref":null,"doi":null,"report-no":null,"categories":"math-ph math.DS math.MP math.OA math.PR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We consider some of the main notions of Gibbs measures on subshifts\nintroduced by different communities, such as dynamical systems, probability,\noperator algebras, and mathematical physics. For potentials with $d$-summable\nvariation, we prove that several of the definitions considered by these\ncommunities are equivalent. In particular, when the subshift is of finite type\n(SFT), we show that all definitions coincide. In addition, we introduced a\ngroupoid approach to describe some Gibbs measures, allowing us to show the\nequivalence between Gibbs measures and KMS states (the quantum analogous to the\nGibbs measures).\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:23:41 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Bissacot","Rodrigo",""],["Fukushima-Kimura","Bruno Hideki",""],["Lima","Rafael Pereira",""],["Raszeja","Thiago",""]]}
+{"id":"2308.16642","submitter":"Liubov Markovich","authors":"L.A. Markovich and J. Borregaard","title":"High-Precision Observable Estimation with Single Qubit Quantum Memory","comments":"20 pages, 4 figures, 1 table. arXiv admin note: text overlap with\n arXiv:2212.07710","journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The estimation of multi-qubit observables is a key task in quantum\ninformation science. The standard approach is to decompose a multi-qubit\nobservable into a weighted sum of Pauli strings. The observable can then be\nestimated from projective single qubit measurements according to the Pauli\nstrings followed by a classical summation. As the number of Pauli strings in\nthe decomposition increases, shot-noise drastically builds up, and the accuracy\nof such estimation can be considerably compromised. Access to a single qubit\nquantum memory, where measurement data may be stored and accumulated can\ncircumvent the build-up of shot noise. Here, we describe a many-qubit\nobservable estimation approach to achieve this with a much lower number of\ninteractions between the multi-qubit device and the single qubit memory\ncompared to previous approaches. Our algorithm offers a reduction in the\nrequired number of measurements for a given target variance that scales\n$N^{\\frac{2}{3}}$ with the number of Pauli strings $N$ in the observable\ndecomposition. The low number of interactions between the multi-qubit device\nand the memory is desirable for noisy intermediate-scale quantum devices.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:32:32 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Markovich","L. A.",""],["Borregaard","J.",""]]}
+{"id":"2308.16643","submitter":"Sharaa A Alqarni","authors":"Sharaa A. Alqarni, Jack D. Briscoe, Clare R. Higgins, Fraser D. Logue,\n Danielle Pizzey, Thomas G. Robertson-Brown, Ifan G. Hughes","title":"A device for magnetic-field angle control in magneto-optical filters\n using a solenoid-permanent magnet pair","comments":"8 pages, 6 figures","journal-ref":null,"doi":"10.15128/r2rb68xb893","report-no":null,"categories":"physics.optics physics.ins-det","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Atomic bandpass filters are used in a variety of applications due to their\nnarrow bandwidths and high transmission at specific frequencies. Predominantly\nthese filters in the Faraday (Voigt) geometry, using an applied\naxial(transverse) magnetic field with respect to the laser propagation\ndirection. Recently, there has been interest in filters realized with\narbitrary-angle magnetic fields, which have been made by rotating permanent\nmagnets with respect to the $k$-vector of the interrogating laser beam.\nHowever, the magnetic-field angle achievable with this method is limited as\nfield uniformity across the cell decreases as the rotation angle increases. In\nthis work, we propose and demonstrate a new method of generating an\narbitrary-angle magnetic field, using a solenoid to produce a small, and easily\nalterable, axial field, in conjunction with fixed permanent magnets to produce\na large transverse field. We directly measure the fields produced by both\nmethods, finding them to be very similar over the length of the vapor cell. We\nthen compare the transmission profiles of filters produced using both methods,\nagain finding excellent agreement. Finally, we demonstrate the sensitivity of\nfilter profile to changing magnetic-field angle (solenoid current), which\nbecomes easier to exploit with the much improved angle control and precision\noffered by our new design.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:32:41 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Alqarni","Sharaa A.",""],["Briscoe","Jack D.",""],["Higgins","Clare R.",""],["Logue","Fraser D.",""],["Pizzey","Danielle",""],["Robertson-Brown","Thomas G.",""],["Hughes","Ifan G.",""]]}
+{"id":"2308.16644","submitter":"Jonathan Partington","authors":"M. Cristina C\\^amara and Jonathan R. Partington","title":"Paired kernels and their applications","comments":"26 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.FA math.CV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" This paper considers paired operators in the context of the Lebesgue Hilbert\nspace on the unit circle and its subspace, the Hardy space $H^2$. The kernels\nof such operators, together with their analytic projections, which are\ngeneralizations of Toeplitz kernels, are studied. Results on near-invariance\nproperties, representations, and inclusion relations for these kernels are\nobtained. The existence of a minimal Toeplitz kernel containing any projected\npaired kernel and, more generally, any nearly $S^*$-invariant subspace of\n$H^2$, is derived. The results are applied to describing the kernels of\nfinite-rank asymmetric truncated Toeplitz operators.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:32:48 GMT"}],"update_date":"2023-09-01","authors_parsed":[["C\u00e2mara","M. Cristina",""],["Partington","Jonathan R.",""]]}
+{"id":"2308.16645","submitter":"Matt Tranter","authors":"J. S. Tamber and D. J. Chappell and J. C. Poore and M. R. Tranter","title":"Detecting Delamination via Nonlinear Wave Scattering in a Bonded Elastic\n Bar","comments":"12 pages, 7 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"nlin.PS","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this paper we examine the effect of delamination on wave scattering, with\nthe aim of creating a control measure for layered waveguides of various bonding\ntypes. Previous works have considered specific widths of solitary waves for the\nsimulations, without analysing the effect of changing the soliton parameters.\nWe consider two multi-layered structures: one containing delamination\n\"sandwiched\" by perfect bonding and one containing delamination but\n\"sandwiched\" by soft bonding. These structures are modelled by coupled\nBoussinesq-type equations. Matched asymptotic multiple-scale expansions lead to\ncoupled Ostrovsky equations in soft bonded regions and Korteweg-De Vries\nequations in the perfectly bonded and delaminated region. We use the Inverse\nScattering Transform to predict the behaviour in the delaminated regions. In\nboth cases, numerical analysis shows that we can predict the delamination\nlength by changes in the wave structure, and that these changes depend upon the\nFull Width at Half Magnitude (FWHM) of the incident soliton. In the case of\nperfect bonding, we derive a theoretical prediction for the change and confirm\nthis numerically. For the soft bonding case, we numerically identify a similar\nrelationship using the change in amplitude. Therefore we only need to compute\none curve to determine the behaviour for any incident solitary wave, creating a\nframework for designing measurement campaigns for rigorously testing the\nintegrity of layered structures.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:33:12 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Tamber","J. S.",""],["Chappell","D. J.",""],["Poore","J. C.",""],["Tranter","M. R.",""]]}
+{"id":"2308.16646","submitter":"Yong Wang","authors":"Yong Wang, Changguo Xiao","title":"Hydrodynamic limit and Newtonian limit from the relativistic Boltzmann\n equation to the classical Euler equations","comments":"63 pages. All comments are welcome","journal-ref":null,"doi":null,"report-no":null,"categories":"math.AP","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The hydrodynamic limit and Newtonian limit are important in the relativistic\nkinetic theory. We justify rigorously the validity of the two independent\nlimits from the special relativistic Boltzmann equation to the classical Euler\nequations without assuming any dependence between the Knudsen number\n$\\varepsilon$ and the light speed $\\mathfrak{c}$. The convergence rates are\nalso obtained. This is achieved by Hilbert expansion of relativistic Boltzmann\nequation. New difficulties arise when tacking the uniform in $\\mathfrak{c}$ and\n$\\varepsilon$ estimates for the Hilbert expansion, which have been overcome by\nestablishing some uniform-in-$\\mathfrak{c}$ estimate for relativistic Boltzmann\noperators.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:36:31 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Wang","Yong",""],["Xiao","Changguo",""]]}
+{"id":"2308.16647","submitter":"Malgorzata Bednarska","authors":"Ma{\\l}gorzata Bednarska-Bzd\\k{e}ga, Tomasz {\\L}uczak","title":"On size Ramsey numbers for a pair of cycles","comments":"14 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" We show that there exists an absolute constant $A$ such that the size Ramsey\nnumber of a pair of cycles $(C_n$, $C_{2d})$, where $4\\le 2d\\le n$, is bounded\nfrom above by $An$. We also study the restricted size Ramsey number for such a\npair.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:42:29 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Bednarska-Bzd\u0119ga","Ma\u0142gorzata",""],["\u0141uczak","Tomasz",""]]}
+{"id":"2308.16648","submitter":"Elliot J. Crowley","authors":"Miguel Espinosa, Elliot J. Crowley","title":"Generate Your Own Scotland: Satellite Image Generation Conditioned on\n Maps","comments":"13 pages, 6 figures. preprint","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV cs.LG","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" Despite recent advancements in image generation, diffusion models still\nremain largely underexplored in Earth Observation. In this paper we show that\nstate-of-the-art pretrained diffusion models can be conditioned on cartographic\ndata to generate realistic satellite images. We provide two large datasets of\npaired OpenStreetMap images and satellite views over the region of Mainland\nScotland and the Central Belt. We train a ControlNet model and qualitatively\nevaluate the results, demonstrating that both image quality and map fidelity\nare possible. Finally, we provide some insights on the opportunities and\nchallenges of applying these models for remote sensing. Our model weights and\ncode for creating the dataset are publicly available at\nhttps://github.com/miquel-espinosa/map-sat.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:44:40 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Espinosa","Miguel",""],["Crowley","Elliot J.",""]]}
+{"id":"2308.16649","submitter":"Prateksha Udhayanan","authors":"Prateksha Udhayanan, Srikrishna Karanam, and Balaji Vasan Srinivasan","title":"Learning with Multi-modal Gradient Attention for Explainable Composed\n Image Retrieval","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We consider the problem of composed image retrieval that takes an input query\nconsisting of an image and a modification text indicating the desired changes\nto be made on the image and retrieves images that match these changes. Current\nstate-of-the-art techniques that address this problem use global features for\nthe retrieval, resulting in incorrect localization of the regions of interest\nto be modified because of the global nature of the features, more so in cases\nof real-world, in-the-wild images. Since modifier texts usually correspond to\nspecific local changes in an image, it is critical that models learn local\nfeatures to be able to both localize and retrieve better. To this end, our key\nnovelty is a new gradient-attention-based learning objective that explicitly\nforces the model to focus on the local regions of interest being modified in\neach retrieval step. We achieve this by first proposing a new visual image\nattention computation technique, which we call multi-modal gradient attention\n(MMGrad) that is explicitly conditioned on the modifier text. We next\ndemonstrate how MMGrad can be incorporated into an end-to-end model training\nstrategy with a new learning objective that explicitly forces these MMGrad\nattention maps to highlight the correct local regions corresponding to the\nmodifier text. By training retrieval models with this new loss function, we\nshow improved grounding by means of better visual attention maps, leading to\nbetter explainability of the models as well as competitive quantitative\nretrieval performance on standard benchmark datasets.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:46:27 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Udhayanan","Prateksha",""],["Karanam","Srikrishna",""],["Srinivasan","Balaji Vasan",""]]}
+{"id":"2308.16650","submitter":"David Azriel","authors":"Almog Peer, David Azriel","title":"Optimal confidence interval for the difference of proportions","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"stat.CO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Estimating the probability of the binomial distribution is a basic problem,\nwhich appears in almost all introductory statistics courses and is performed\nfrequently in various studies. In some cases, the parameter of interest is a\ndifference between two probabilities, and the current work studies the\nconstruction of confidence intervals for this parameter when the sample size is\nsmall. Our goal is to find the shortest confidence intervals under the\nconstraint of coverage probability being larger than a predetermined level. For\nthe two-sample case, there is no known algorithm that achieves this goal, but\ndifferent heuristics procedures have been suggested, and the present work aims\nat finding optimal confidence intervals. In the one-sample case, there is a\nknown algorithm that finds optimal confidence intervals presented by Blyth and\nStill (1983). It is based on solving small and local optimization problems and\nthen using an inversion step to find the global optimum solution. We show that\nthis approach fails in the two-sample case and therefore, in order to find\noptimal confidence intervals, one needs to solve a global optimization problem,\nrather than small and local ones, which is computationally much harder. We\npresent and discuss the suitable global optimization problem. Using the Gurobi\npackage we find near-optimal solutions when the sample sizes are smaller than\n15, and we compare these solutions to some existing methods, both approximate\nand exact. We find that the improvement in terms of lengths with respect to the\nbest competitor varies between 1.5\\% and 5\\% for different parameters of the\nproblem. Therefore, we recommend the use of the new confidence intervals when\nboth sample sizes are smaller than 15. Tables of the confidence intervals are\ngiven in the Excel file in this link.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:49:36 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Peer","Almog",""],["Azriel","David",""]]}
+{"id":"2308.16651","submitter":"Ishay Be'ery","authors":"Gal Shitrit, Ishay Be'ery, Ido Yerhushalmy","title":"SoccerNet 2023 Tracking Challenge -- 3rd place MOT4MOT Team Technical\n Report","comments":"3 pages, 1 figure","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The SoccerNet 2023 tracking challenge requires the detection and tracking of\nsoccer players and the ball. In this work, we present our approach to tackle\nthese tasks separately. We employ a state-of-the-art online multi-object\ntracker and a contemporary object detector for player tracking. To overcome the\nlimitations of our online approach, we incorporate a post-processing stage\nusing interpolation and appearance-free track merging. Additionally, an\nappearance-based track merging technique is used to handle the termination and\ncreation of tracks far from the image boundaries. Ball tracking is formulated\nas single object detection, and a fine-tuned YOLOv8l detector with proprietary\nfiltering improves the detection precision. Our method achieves 3rd place on\nthe SoccerNet 2023 tracking challenge with a HOTA score of 66.27.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:51:16 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Shitrit","Gal",""],["Be'ery","Ishay",""],["Yerhushalmy","Ido",""]]}
+{"id":"2308.16652","submitter":"The ATLAS Collaboration","authors":"ATLAS Collaboration","title":"Azimuthal angle correlations of muons produced via heavy-flavor decays\n in 5.02 TeV Pb+Pb and $pp$ collisions with the ATLAS detector","comments":"33 pages in total, author list starting page 15, 4 figures, submitted\n to Phys. Rev. Lett. All figures including auxiliary figures are available at\n https://atlas.web.cern.ch/Atlas/GROUPS/PHYSICS/PAPERS/HION-2022-19","journal-ref":null,"doi":null,"report-no":"CERN-EP-2023-185","categories":"nucl-ex hep-ex","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Angular correlations between heavy-quarks provide a unique probe of the\nquark-gluon plasma created in ultra-relativistic heavy-ion collisions. Results\nare presented of a measurement of the azimuthal angle correlations between\nmuons originating from semileptonic decays of heavy-quarks produced in 5.02 TeV\nPb+Pb and $pp$ collisions at the LHC. The muons are measured with transverse\nmomenta and pseudorapidities satisfying $p_{\\mathrm{T}}^\\mu > 4$ GeV and\n$|\\eta^\\mu|<2.4$, respectively. The distributions of azimuthal angle\nseparation, $\\Delta\\phi$, for muon pairs having pseudorapidity separation\n$|\\Delta\\eta|>0.8$, are measured in different Pb+Pb centrality intervals and\ncompared to the same distribution measured in $pp$ collisions at the same\ncenter-of-mass energy. Results are presented separately for muon pairs with\nopposite-sign charges, same-sign charges, and all pairs. A clear peak is\nobserved in all $\\Delta\\phi$ distributions at $\\Delta\\phi\\sim\\pi$, consistent\nwith the parent heavy-quark pairs being produced via hard-scattering processes.\nThe widths of that peak, characterized using Cauchy-Lorentz fits to the\n$\\Delta\\phi$ distributions, are found to not vary significantly as a function\nof Pb+Pb collision centrality and are similar for $pp$ and Pb+Pb collisions.\nThis observation will provide important constraints on theoretical descriptions\nof heavy-quark interactions with the quark-gluon plasma.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:51:45 GMT"}],"update_date":"2023-09-01","authors_parsed":[["ATLAS Collaboration","",""]]}
+{"id":"2308.16653","submitter":"Krishna Menon P","authors":"Priyavrat Deshpande and Krishna Menon","title":"Sketches, moves and partitions: counting regions of deformations of\n reflection arrangements","comments":"49 pages, 15 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The collection of reflecting hyperplanes of a finite Coxeter group is called\na reflection arrangement and it appears in many subareas of combinatorics and\nrepresentation theory. We focus on the problem of counting regions of\nreflection arrangements and their deformations. Inspired by the recent work of\nBernardi, we show that the notion of moves and sketches can be used to provide\na uniform and explicit bijection between regions of (the Catalan deformation\nof) a reflection arrangement and certain non-nesting partitions. We then use\nthe exponential formula to describe a statistic on these partitions such that\ndistribution is given by the coefficients of the characteristic polynomial.\nFinally, we consider a sub-arrangement of type C arrangement called the\nthreshold arrangement and its Catalan and Shi deformations.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:51:53 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Deshpande","Priyavrat",""],["Menon","Krishna",""]]}
+{"id":"2308.16654","submitter":"Emma Van Der Minne","authors":"Emma van der Minne, Lucas Korol, Lidewij M.A. Krakers, Michael\n Verhage, Carlos M. M. Ros\\'ario, Thijs J. Roskamp, Raymond J. Spiteri, Chiara\n Biz, Mauro Fianchini, Guus Rijnders, Kees Flipse, Jose Gracia, Guido Mul,\n Hans Hilgenkamp, Robert J. Green, Gertjan Koster, Christoph Baeumer","title":"Beyond domain alignment: Revealing the effect of intrinsic magnetic\n order on electrochemical water splitting","comments":"The following article will be submitted to Applied Physics Reviews.\n Main text (incl. references) 19 pages, 8 figures. Supplementary text 9 pages,\n 13 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mtrl-sci","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" To reach a long term viable green hydrogen economy, rational design of active\noxygen evolution reaction (OER) catalysts is critical. An important hurdle in\nthis reaction originates from the fact that the reactants are singlet\nmolecules, whereas the oxygen molecule has a triplet ground state with parallel\nspin alignment, implying that magnetic order in the catalyst is essential.\nAccordingly, multiple experimentalists reported a positive effect of external\nmagnetic fields on OER activity of ferromagnetic catalysts. However, it remains\na challenge to investigate the influence of the intrinsic magnetic order on\ncatalytic activity. Here, we tuned the intrinsic magnetic order of epitaxial\nLa$_{0.67}$Sr$_{0.33}$MnO$_{3}$ thin film model catalysts from ferro- to\nparamagnetic by changing the temperature in-situ during water electrolysis.\nUsing this strategy, we show that ferromagnetic ordering below the Curie\ntemperature enhances OER activity. Moreover, we show a slight current density\nenhancement upon application of an external magnetic field and find that the\ndependence of magnetic field direction correlates with the magnetic anisotropy\nin the catalyst film. Our work thus suggests that both the intrinsic magnetic\norder in La$_{0.67}$Sr$_{0.33}$MnO$_{3}$ films and magnetic domain alignment\nincrease their catalytic activity. We observe no long-range magnetic order at\nthe catalytic surface, implying that the OER enhancement is connected to the\nmagnetic order of the bulk catalyst. Combining the effects found with existing\nliterature, we propose a unifying picture for the spin-polarized enhancement in\nmagnetic oxide catalysts.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:53:39 GMT"}],"update_date":"2023-09-01","authors_parsed":[["van der Minne","Emma",""],["Korol","Lucas",""],["Krakers","Lidewij M. A.",""],["Verhage","Michael",""],["Ros\u00e1rio","Carlos M. M.",""],["Roskamp","Thijs J.",""],["Spiteri","Raymond J.",""],["Biz","Chiara",""],["Fianchini","Mauro",""],["Rijnders","Guus",""],["Flipse","Kees",""],["Gracia","Jose",""],["Mul","Guido",""],["Hilgenkamp","Hans",""],["Green","Robert J.",""],["Koster","Gertjan",""],["Baeumer","Christoph",""]]}
+{"id":"2308.16655","submitter":"Katarina Luki\\'c","authors":"Katarina Luki\\'c","title":"The Jacobi-orthogonality in indefinite scalar product spaces","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.DG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We generalize the property of Jacobi-orthogonality to indefinite scalar\nproduct spaces. We compare various principles and investigate relations between\nOsserman, Jacobi-dual, and Jacobi-orthogonal algebraic curvature tensors. We\nshow that every quasi-Clifford tensor is Jacobi-orthogonal. We prove that a\nJacobi-diagonalizable Jacobi-orthogonal tensor is Jacobi-dual whenever J_X has\nno null eigenvectors for all nonnull X. We show that any algebraic curvature\ntensor of dimension 3 is Jacobi-orthogonal if and only if it is of constant\nsectional curvature. We prove that every 4-dimensional Jacobi-diagonalizable\nalgebraic curvature tensor is Jacobi-orthogonal if and only if it is Osserman.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:54:51 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Luki\u0107","Katarina",""]]}
+{"id":"2308.16656","submitter":"Ga\\'etan Facchinetti","authors":"Ga\\'etan Facchinetti, Laura Lopez-Honorez, Yuxiang Qin, Andrei\n Mesinger","title":"21cm signal sensitivity to dark matter decay","comments":"33 pages, 12 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.CO astro-ph.GA hep-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The redshifted 21cm signal from the Cosmic Dawn is expected to provide\nunprecedented insights into early Universe astrophysics and cosmology. Here we\nexplore how dark matter can heat the intergalactic medium before the first\ngalaxies, leaving a distinctive imprint in the 21cm power spectrum. We provide\nthe first dedicated Fisher matrix forecasts on the sensitivity of the Hydrogen\nEpoch of Reionization Array (HERA) telescope to dark matter decays. We show\nthat with 1000 hours of observation, HERA has the potential to improve current\ncosmological constraints on the dark matter decay lifetime by up to three\norders of magnitude. Even in extreme scenarios with strong X-ray emission from\nearly-forming, metal-free galaxies, the bounds on the decay lifetime would be\nimproved by up to two orders of magnitude. Overall, HERA shall improve on\nexisting limits for dark matter masses below $2$ GeV$/c^2$ for decays into\n$e^+e^-$ and below few MeV$/c^2$ for decays into photons.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:57:09 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Facchinetti","Ga\u00e9tan",""],["Lopez-Honorez","Laura",""],["Qin","Yuxiang",""],["Mesinger","Andrei",""]]}
+{"id":"2308.16657","submitter":"Yuan-Yao He","authors":"Yu-Feng Song, Youjin Deng, Yuan-Yao He","title":"Demystify the mixed-parity pairing of attractive fermions with\n spin-orbit coupling in optical lattice","comments":"14 pages, 11+5 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.str-el cond-mat.supr-con","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The admixture of spin-singlet and spin-triplet pairing states in\nsuperconductors can be typically induced by breaking spatial inversion\nsymmetry. Employing the {\\it numerically exact} auxiliary-field Quantum Monte\nCarlo method, we study such mixed-parity pairing phenomena of attractive\nfermions with Rashba spin-orbit coupling (SOC) in two-dimensional optical\nlattice at finite temperature. We systematically demystify the evolution of the\nessential pairing structure in both singlet and triplet channels versus the\ntemperature, fermion filling, SOC and interaction strengths, via computing the\ncondensate fraction and pair wave function. Our numerical results reveal that\nthe singlet channel dominates in the fermion pairing and the triplet pairing\nhas relatively small contribution to the superfluidity for physically relevant\nparameters. In contrast to the singlet channel mainly consisted of the on-site\nCooper pairs, the triplet pairing has plentiful patterns in real space with the\nlargest contributions from several nearest neighbors. As the SOC strengh\nincreases, the pairing correlation is firstly enhanced and then suppressed for\ntriplet pairing while it's simply weakened in singlet channel. We have also\nobtained the Berezinskii-Kosterlitz-Thouless transition temperatures through\nthe finite-size analysis of condensate fraction. Our results can serve as\nquantitative guide for future optical lattice experiments as well as accurate\nbenchmarks for theories and other numerical methods.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:58:02 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Song","Yu-Feng",""],["Deng","Youjin",""],["He","Yuan-Yao",""]]}
+{"id":"2308.16658","submitter":"Hans-Dieter Lang","authors":"Hans-Dieter Lang, Michel A. Nyffenegger, Heinz Mathis and Xingqi Zhang","title":"Investigating Sparse Reconfigurable Intelligent Surfaces (SRIS) via\n Maximum Power Transfer Efficiency Method Based on Convex Relaxation","comments":"EuCAP 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"math.OC cs.SY eess.SY","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Reconfigurable intelligent surfaces (RISs) are widely considered to become an\nintegral part of future wireless communication systems. Various methodologies\nexist to design such surfaces; however, most consider or require a very large\nnumber of tunable components. This not only raises system complexity, but also\nsignificantly increases power consumption. Sparse RISs (SRISs) consider using a\nsmaller or even minimal number of tunable components to improve overall\nefficiency while maintaining sufficient RIS capability. The versatile\nsemidefinite relaxation-based optimization method previously applied to\ntransmit array antennas is adapted and applied accordingly, to evaluate the\npotential of different SRIS configurations. Because the relaxation is tight in\nall cases, the maximum possible performance is found reliably. Hence, with this\napproach, the trade-off between performance and sparseness of SRIS can be\nanalyzed. Preliminary results show that even a much smaller number of\nreconfigurable elements, e.g. only 50%, can still have a significant impact.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:58:11 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Lang","Hans-Dieter",""],["Nyffenegger","Michel A.",""],["Mathis","Heinz",""],["Zhang","Xingqi",""]]}
+{"id":"2308.16659","submitter":"Abhirami Harilal","authors":"Abhirami Harilal, Kyungmin Park, Michael Andrews and Manfred Paulini\n (on behalf of the CMS Collaboration)","title":"Autoencoder-based Online Data Quality Monitoring for the CMS\n Electromagnetic Calorimeter","comments":"Submitted to the Proceedings of 21st International Workshop on\n Advanced Computing and Analysis Techniques in Physics Research ACAT 2022\n conference","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.ins-det cs.LG hep-ex physics.data-an","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The online Data Quality Monitoring system (DQM) of the CMS electromagnetic\ncalorimeter (ECAL) is a crucial operational tool that allows ECAL experts to\nquickly identify, localize, and diagnose a broad range of detector issues that\nwould otherwise hinder physics-quality data taking. Although the existing ECAL\nDQM system has been continuously updated to respond to new problems, it remains\none step behind newer and unforeseen issues. Using unsupervised deep learning,\na real-time autoencoder-based anomaly detection system is developed that is\nable to detect ECAL anomalies unseen in past data. After accounting for spatial\nvariations in the response of the ECAL and the temporal evolution of anomalies,\nthe new system is able to efficiently detect anomalies while maintaining an\nestimated false discovery rate between $10^{-2}$ to $10^{-4}$, beating existing\nbenchmarks by about two orders of magnitude. The real-world performance of the\nsystem is validated using anomalies found in 2018 and 2022 LHC collision data.\nAdditionally, first results from deploying the autoencoder-based system in the\nCMS online DQM workflow for the ECAL barrel during Run 3 of the LHC are\npresented, showing its promising performance in detecting obscure issues that\ncould have been missed in the existing DQM system.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:58:13 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Harilal","Abhirami","","on behalf of the CMS Collaboration"],["Park","Kyungmin","","on behalf of the CMS Collaboration"],["Andrews","Michael","","on behalf of the CMS Collaboration"],["Paulini","Manfred","","on behalf of the CMS Collaboration"]]}
+{"id":"2308.16660","submitter":"Julia Lenczewska","authors":"Wojciech Cygan, Tomasz Grzywny, Julia Lenczewska","title":"Asymptotics and geometric flows for a class of nonlocal curvatures","comments":"30 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.AP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We consider a family of nonlocal curvatures determined through a kernel which\nis symmetric and bounded from above by a radial and radially non-increasing\nprofile. It turns out that such definition encompasses various variants of\nnonlocal curvatures that have already appeared in the literature, including\nfractional curvature and anisotropic fractional curvature. The main task\nundertaken in the article is to study the limit behaviour of the introduced\nnonlocal curvatures under an appropriate limiting procedure. This enables us to\nrecover known asymptotic results e.g. for fractional curvature, but also for\nanisotropic fractional curvature where we identify the limit object as a\ncurvature being the first variation of the related anisotropic perimeter. Our\nother goal is to prove existence, uniqueness and stability of viscosity\nsolutions to the corresponding level-set parabolic Cauchy problem formulated in\nterms of the investigated nonlocal curvature.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 11:58:48 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Cygan","Wojciech",""],["Grzywny","Tomasz",""],["Lenczewska","Julia",""]]}
+{"id":"2308.16661","submitter":"Hasan Abu-Rasheed","authors":"Hasan Abu-Rasheed, Christian Weber and Madjid Fathi","title":"Context based learning: a survey of contextual indicators for\n personalized and adaptive learning recommendations. A pedagogical and\n technical perspective","comments":null,"journal-ref":"Front. Educ. 8:1210968 (2023)","doi":"10.3389/feduc.2023.1210968","report-no":null,"categories":"cs.HC","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Learning personalization has proven its effectiveness in enhancing learner\nperformance. Therefore, modern digital learning platforms have been\nincreasingly depending on recommendation systems to offer learners personalized\nsuggestions of learning materials. Learners can utilize those recommendations\nto acquire certain skills for the labor market or for their formal education.\nPersonalization can be based on several factors, such as personal preference,\nsocial connections or learning context. In an educational environment, the\nlearning context plays an important role in generating sound recommendations,\nwhich not only fulfill the preferences of the learner, but also correspond to\nthe pedagogical goals of the learning process. This is because a learning\ncontext describes the actual situation of the learner at the moment of\nrequesting a learning recommendation. It provides information about the learner\ncurrent state of knowledge, goal orientation, motivation, needs, available\ntime, and other factors that reflect their status and may influence how\nlearning recommendations are perceived and utilized. Context aware recommender\nsystems have the potential to reflect the logic that a learning expert may\nfollow in recommending materials to students with respect to their status and\nneeds. In this paper, we review the state-of-the-art approaches for defining a\nuser learning-context. We provide an overview of the definitions available, as\nwell as the different factors that are considered when defining a context.\nMoreover, we further investigate the links between those factors and their\npedagogical foundations in learning theories. We aim to provide a comprehensive\nunderstanding of contextualized learning from both pedagogical and technical\npoints of view. By combining those two viewpoints, we aim to bridge a gap\nbetween both domains, in terms of contextualizing learning recommendations.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:00:03 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Abu-Rasheed","Hasan",""],["Weber","Christian",""],["Fathi","Madjid",""]]}
+{"id":"2308.16662","submitter":"Rodrigo Jaeschke-Ubiergo","authors":"R. Jaeschke-Ubiergo, V.K. Bharadwaj, L. \\v{S}mejkal and Jairo Sinova","title":"Supercell Altermagnets","comments":"10 pages, 4 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mtrl-sci cond-mat.str-el","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Altermagnets are compensated magnets with unconvetional $d$, $g$ and $i$-wave\nspin-channel order in reciprocal space. So far the search for new altermagnetic\ncandidates has been focused on materials in which the magnetic unit cell is\nidentical to the non-magnetic one, i.e. magnetic structures with zero\npropagation vector. Here, we substantially broaden the family of altermagnetic\ncandidates by predicting supercell altermagnets. Their magnetic unit cell is\nconstructed by enlarging the paramagnetic primitive unit cell, resulting in a\nnon-zero propagation vector for the magnetic structure. This connection of the\nmagnetic configuration to the ordering of sublattices gives an extra degree of\nfreedom to supercell altermagnets, which can allow for the control over the\norder parameter spatial orientation. We identify realistic candidates MnSe$_2$\nwith a $d$-wave order, and RbCoBr$_3$, CsCoCr$_3$, and BaMnO$_3$ with $g$-wave\norder. We demonstrate the reorientation of the order parameter in MnSe$_2$,\nwhich has two different magnetic configurations, whose energy difference is\nonly 5 meV, opening the possibility of controlling the orientation of the\naltermagnetic order parameter by external perturbations.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:01:02 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Jaeschke-Ubiergo","R.",""],["Bharadwaj","V. K.",""],["\u0160mejkal","L.",""],["Sinova","Jairo",""]]}
+{"id":"2308.16663","submitter":"Andrea Bracco","authors":"Andrea Bracco, Marco Padovani, Juan D. Soler","title":"The Orion-Taurus ridge: a synchrotron radio loop at the edge of the\n Orion-Eridanus superbubble","comments":"Accepted for publication in Astronomy & Astrophysics","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA astro-ph.HE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Large-scale synchrotron loops are recognized as the main source of diffuse\nradio-continuum emission in the Galaxy at intermediate and high Galactic\nlatitudes. Their origin, however, remains rather unexplained. Using a\ncombination of multi-frequency data in the radio band of total and polarized\nintensities, for the first time in this letter, we associate one arc --\nhereafter, the Orion-Taurus ridge -- with the wall of the most prominent\nstellar-feedback blown shell in the Solar neighborhood, namely the\nOrion-Eridanus superbubble. We traced the Orion-Taurus ridge using 3D maps of\ninterstellar dust extinction and column-density maps of molecular gas, $N_{\\rm\nH_2}$. We found the Orion-Taurus ridge at a distance of 400\\,pc, with a\nplane-of-the-sky extent of $180$\\,pc. Its median $N_{\\rm H_2}$ value is\n$(1.4^{+2.6}_{-0.6})\\times 10^{21}$ cm$^{-2}$. Thanks to the broadband\nobservations below 100 MHz of the Long Wavelength Array, we also computed the\nlow-frequency spectral-index map of synchrotron emissivity, $\\beta$, in the\nOrion-Taurus ridge. We found a flat distribution of $\\beta$ with a median value\nof $-2.24^{+0.03}_{-0.02}$ that we interpreted in terms of depletion of\nlow-energy ($<$ GeV) cosmic-ray electrons in recent supernova remnants ($10^5$\n- $10^6$ yrs). Our results are consistent with plane-of-the-sky magnetic-field\nstrengths in the Orion-Taurus ridge larger than a few tens of $\\mu$G ($> 30 -\n40 \\,\\mu$G). We report the first detection of diffuse synchrotron emission from\ncold-neutral, partly molecular, gas in the surroundings of the Orion-Eridanus\nsuperbubble. This observation opens a new perspective to study the multiphase\nand magnetized interstellar medium with the advent of future high-sensitivity\nradio facilities, such as the C-Band All-Sky Survey and the Square Kilometre\nArray.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:12:53 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Bracco","Andrea",""],["Padovani","Marco",""],["Soler","Juan D.",""]]}
+{"id":"2308.16664","submitter":"Oleksandr Kyriienko","authors":"Chukwudubem Umeano, Annie E. Paine, Vincent E. Elfving, Oleksandr\n Kyriienko","title":"What can we learn from quantum convolutional neural networks?","comments":"13 pages, 7 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph cond-mat.dis-nn cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We can learn from analyzing quantum convolutional neural networks (QCNNs)\nthat: 1) working with quantum data can be perceived as embedding physical\nsystem parameters through a hidden feature map; 2) their high performance for\nquantum phase recognition can be attributed to generation of a very suitable\nbasis set during the ground state embedding, where quantum criticality of spin\nmodels leads to basis functions with rapidly changing features; 3) pooling\nlayers of QCNNs are responsible for picking those basis functions that can\ncontribute to forming a high-performing decision boundary, and the learning\nprocess corresponds to adapting the measurement such that few-qubit operators\nare mapped to full-register observables; 4) generalization of QCNN models\nstrongly depends on the embedding type, and that rotation-based feature maps\nwith the Fourier basis require careful feature engineering; 5) accuracy and\ngeneralization of QCNNs with readout based on a limited number of shots favor\nthe ground state embeddings and associated physics-informed models. We\ndemonstrate these points in simulation, where our results shed light on\nclassification for physical processes, relevant for applications in sensing.\nFinally, we show that QCNNs with properly chosen ground state embeddings can be\nused for fluid dynamics problems, expressing shock wave solutions with good\ngeneralization and proven trainability.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:12:56 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Umeano","Chukwudubem",""],["Paine","Annie E.",""],["Elfving","Vincent E.",""],["Kyriienko","Oleksandr",""]]}
+{"id":"2308.16665","submitter":"Pierre-Alain Mo\\\"ellic","authors":"Clement Gaine, Pierre-Alain Moellic, Olivier Potin, Jean-Max Dutertre","title":"Fault Injection on Embedded Neural Networks: Impact of a Single\n Instruction Skip","comments":"Accepted at DSD 2023 for AHSA Special Session","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CR cs.AI","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" With the large-scale integration and use of neural network models, especially\nin critical embedded systems, their security assessment to guarantee their\nreliability is becoming an urgent need. More particularly, models deployed in\nembedded platforms, such as 32-bit microcontrollers, are physically accessible\nby adversaries and therefore vulnerable to hardware disturbances. We present\nthe first set of experiments on the use of two fault injection means,\nelectromagnetic and laser injections, applied on neural networks models\nembedded on a Cortex M4 32-bit microcontroller platform. Contrary to most of\nstate-of-the-art works dedicated to the alteration of the internal parameters\nor input values, our goal is to simulate and experimentally demonstrate the\nimpact of a specific fault model that is instruction skip. For that purpose, we\nassessed several modification attacks on the control flow of a neural network\ninference. We reveal integrity threats by targeting several steps in the\ninference program of typical convolutional neural network models, which may be\nexploited by an attacker to alter the predictions of the target models with\ndifferent adversarial goals.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:14:37 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Gaine","Clement",""],["Moellic","Pierre-Alain",""],["Potin","Olivier",""],["Dutertre","Jean-Max",""]]}
+{"id":"2308.16666","submitter":"Carlos Andres Agudelo Serna","authors":"Carlos Andres Agudelo Serna","title":"Study of Zero-Knowledge protocols and Elliptic Curve Cryptography and\n their implementation in Smart Card environments using Java Card","comments":"16 pages, in Spanish","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CR","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" This paper studies the problem of Zero-Knowledge Protocol (ZKP) and elliptic\ncurve cryptographic implementation in a computationally limited environment,\nsuch as, the smart cards, using Java Card. Besides that, it is explained how\nthe zero-knowledge protocol was selected to implement it on a smart card and\nhow the benchmarking was conducted to select this protocol. The paper also\nshows a theoretical development to implement the ZKP protocol using elliptic\ncurve cryptography. Keywords: Authentication; Zero-knowledge; Cryptography;\nElliptic Curve; Java card; Smart cards\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:15:03 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Serna","Carlos Andres Agudelo",""]]}
+{"id":"2308.16667","submitter":"Eduardo Gutierrez-Prieto","authors":"Eduardo Gutierrez-Prieto, Michael Gomez, Pedro M. Reis","title":"Gyrophilia: Harnessing Centrifugal and Euler Forces for Tunable Buckling\n of a Rotating Elastica","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.soft","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" We investigate the geometrically nonlinear deformation and buckling of a\nslender elastic beam subject to time-dependent `fictitious' (non-inertial)\nforces arising from unsteady rotation. Using a rotary apparatus that accurately\nimposes an angular acceleration around a fixed axis, we demonstrate that\ncentrifugal and Euler forces can be combined to produce tunable structural\ndeformation. Specifically, using an imposed acceleration ramp, the buckling\nonset of a cantilevered beam can be precisely tuned and its deformation\ndirection selected. In a second configuration, a pre-arched beam can be made to\nsnap, on demand, between its two stable states. We also formulate a theoretical\nmodel rooted in Euler's elastica that rationalizes the problem and provides\npredictions in excellent quantitative agreement with the experimental data. Our\nfindings demonstrate an innovative approach to programmable actuation of\nslender rotating structures.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:18:13 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Gutierrez-Prieto","Eduardo",""],["Gomez","Michael",""],["Reis","Pedro M.",""]]}
+{"id":"2308.16668","submitter":"Sourav Sen","authors":"Apurba Das and Sourav Sen","title":"$2$-term averaging $L_\\infty$-algebras and non-abelian extensions of\n averaging Lie algebras","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.RA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In recent years, averaging operators on Lie algebras (also called embedding\ntensors in the physics literature) and associated tensor hierarchies form an\nefficient tool for constructing supergravity and higher gauge theories. A Lie\nalgebra with an averaging operator is called an averaging Lie algebra. In the\npresent paper, we introduce $2$-term averaging $L_\\infty$-algebras and give\ncharacterizations of some particular classes of such homotopy algebras. Next,\nwe study non-abelian extensions of an averaging Lie algebra by another\naveraging Lie algebra. We define the second non-abelian cohomology group to\nclassify the equivalence classes of such non-abelian extensions. Next, given a\nnon-abelian extension of averaging Lie algebras, we show that the obstruction\nfor a pair of averaging Lie algebra automorphisms to be inducible can be seen\nas the image of a suitable Wells map. Finally, we discuss the Wells short exact\nsequence in the above context.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:20:51 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Das","Apurba",""],["Sen","Sourav",""]]}
+{"id":"2308.16669","submitter":"Alison Mitchell","authors":"A. M. W. Mitchell, S. Caroff (for the H.E.S.S. collaboration)","title":"Modelling of highly extended Gamma-ray emission around the Geminga\n Pulsar as detected with H.E.S.S","comments":"8 pages, 5 figures. In proceedings of ICRC2023 (see also\n arXiv:2304.02631)","journal-ref":"Proceedings of the 38th International Cosmic Ray Conference\n (ICRC2023) PoS(ICRC2023)590","doi":null,"report-no":null,"categories":"astro-ph.HE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Geminga is an enigmatic radio-quiet gamma-ray pulsar located at a mere 250 pc\ndistance from Earth. Extended very-high-energy gamma-ray emission around the\npulsar has been detected by multiple water Cherenkov detector based\ninstruments. However, the detection of extended TeV gamma-ray emission around\nthe Geminga pulsar has proven challenging for IACTs due to the angular scale\nexceeding the typical field-of-view. By detailed studies of background\nestimation techniques and characterising systematic effects, a detection of\nhighly extended TeV gamma-ray emission could be confirmed by the H.E.S.S. IACT\narray. Building on the previously announced detection, in this contribution we\nfurther characterise the emission and apply an electron diffusion model to the\ncombined gamma-ray data from the H.E.S.S. and HAWC experiments, as well as\nX-ray data from XMM-Newton.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:22:10 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Mitchell","A. M. W.","","for the H.E.S.S. collaboration"],["Caroff","S.","","for the H.E.S.S. collaboration"]]}
+{"id":"2308.16670","submitter":"V\\'ictor J. Exp\\'osito Jim\\'enez","authors":"V\\'ictor J. Exp\\'osito Jim\\'enez, Bernhard Winkler, Joaquim M.\n Castella Triginer, Heiko Scharke, Hannes Schneider, Eugen Brenner, Georg\n Macher","title":"Safety of the Intended Functionality Concept Integration into a\n Validation Tool Suite","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SE","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Nowadays, the increasing complexity of Advanced Driver Assistance Systems\n(ADAS) and Automated Driving (AD) means that the industry must move towards a\nscenario-based approach to validation rather than relying on established\ntechnology-based methods. This new focus also requires the validation process\nto take into account Safety of the Intended Functionality (SOTIF), as many\nscenarios may trigger hazardous vehicle behaviour. Thus, this work demonstrates\nhow the integration of the SOTIF process within an existing validation tool\nsuite can be achieved. The necessary adaptations are explained with\naccompanying examples to aid comprehension of the approach.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:22:35 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Jim\u00e9nez","V\u00edctor J. Exp\u00f3sito",""],["Winkler","Bernhard",""],["Triginer","Joaquim M. Castella",""],["Scharke","Heiko",""],["Schneider","Hannes",""],["Brenner","Eugen",""],["Macher","Georg",""]]}
+{"id":"2308.16671","submitter":"Shenglong Zhou","authors":"Shenglong Zhou, Kaidi Xu, Geoffrey Ye Li","title":"Communication-Efficient Decentralized Federated Learning via One-Bit\n Compressive Sensing","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Decentralized federated learning (DFL) has gained popularity due to its\npracticality across various applications. Compared to the centralized version,\ntraining a shared model among a large number of nodes in DFL is more\nchallenging, as there is no central server to coordinate the training process.\nEspecially when distributed nodes suffer from limitations in communication or\ncomputational resources, DFL will experience extremely inefficient and unstable\ntraining. Motivated by these challenges, in this paper, we develop a novel\nalgorithm based on the framework of the inexact alternating direction method\n(iADM). On one hand, our goal is to train a shared model with a sparsity\nconstraint. This constraint enables us to leverage one-bit compressive sensing\n(1BCS), allowing transmission of one-bit information among neighbour nodes. On\nthe other hand, communication between neighbour nodes occurs only at certain\nsteps, reducing the number of communication rounds. Therefore, the algorithm\nexhibits notable communication efficiency. Additionally, as each node selects\nonly a subset of neighbours to participate in the training, the algorithm is\nrobust against stragglers. Additionally, complex items are computed only once\nfor several consecutive steps and subproblems are solved inexactly using\nclosed-form solutions, resulting in high computational efficiency. Finally,\nnumerical experiments showcase the algorithm's effectiveness in both\ncommunication and computation.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:22:40 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zhou","Shenglong",""],["Xu","Kaidi",""],["Li","Geoffrey Ye",""]]}
+{"id":"2308.16672","submitter":"Baptiste Gault","authors":"Eric V. Woods, Se-Ho Kim, Ayman A. El-Zoka, Leigh T. Stephenson,\n Baptiste Gault","title":"Scalable Substrate Development for Aqueous Biological Samples for Atom\n Probe Tomography","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.app-ph cond-mat.soft","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Reliable and consistent preparation of atom probe tomography (APT) specimens\nfrom aqueous and hydrated biological specimens remains a significant challenge.\nOne particularly difficult process step is the use of a focused ion beam (FIB)\ninstrument for preparing the required needle-shaped specimen, typically\ninvolving a \"lift-out\" procedure of a small sample of material. Here, two\nalternative substrate designs are introduced that enable using FIB only for\nsharpening, along with example APT datasets. The first design is a laser-cut\nFIB-style half-grid close to those used for transmission-electron microscopy,\nthat can be used in a grid holder compatible with APT pucks. The second design\nis a larger, standalone self-supporting substrate called a \"crown\", with\nseveral specimen positions that self-aligns in APT pucks, prepared by\nelectrical discharge machining (EDM). Both designs are made nanoporous, to\nprovide strength to the liquid-substrate interface, using chemical and vacuum\ndealloying. We select alpha brass a simple, widely available, lower-cost\nalternative to previously proposed substrates. We present the resulting\ndesigns, APT data, and provide suggestions to help drive wider community\nadoption.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:22:42 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Woods","Eric V.",""],["Kim","Se-Ho",""],["El-Zoka","Ayman A.",""],["Stephenson","Leigh T.",""],["Gault","Baptiste",""]]}
+{"id":"2308.16673","submitter":"Albert Much","authors":"Albert Much and Rainer Verch","title":"Superluminal local operations in quantum field theory: A ping-pong ball\n test","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph gr-qc hep-th","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" It is known that in quantum field theory, localized operations, e.g.\\ given\nby unitary operators in local observable algebras, may lead to non-causal, or\nsuperluminal, state changes within their localization region. In this article,\nit is shown that both in quantum field theory as well as in classical\nrelativistic field theory, there are localized operations which correspond to\n``instantaneous'' spatial rotations (leaving the localization region invariant)\nleading to superluminal effects within the localization region. This shows that\n``impossible measurement scenarios'' which have been investigated in the\nliterature, and which rely on the presence of localized operations that feature\nsuperluminal effects within their localization region, do not only occur in\nquantum field theory, but also in classical field theory.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:23:10 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Much","Albert",""],["Verch","Rainer",""]]}
+{"id":"2308.16674","submitter":"Dimple Saini","authors":"D. Saini, H. Trivedi, S. Veerabathiran","title":"A characterization of invariant subspaces for isometric representations\n of product system over $\\mathbb{N}_0^{k}$","comments":"19 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.OA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Using the Wold-von Neumann decomposition for the isometric covariant\nrepresentations due to Muhly and Solel, we prove an explicit representation of\nthe commutant of a doubly commuting pure isometric representation of the\nproduct system over $\\mathbb{N}_0^{k}.$ As an application, we study a complete\ncharacterization of invariant subspaces for a doubly commuting pure isometric\nrepresentation of the product system. This provides us a complete set of\nisomorphic invariants. Finally, we classify a large class of commuting\nisometric representations of the product system.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:25:24 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Saini","D.",""],["Trivedi","H.",""],["Veerabathiran","S.",""]]}
+{"id":"2308.16675","submitter":"Cristina Costoya","authors":"Cristina Costoya, Rafael Gomes, Antonio Viruel","title":"Realization of permutation modules via Alexandroff spaces","comments":"13 pages, 3 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"math.AT math.CO math.GR math.RT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We raise the question of the realizability of permutation modules in the\ncontext of Kahn's realizability problem for abstract groups and the $G$-Moore\nspace problem. Specifically, given a finite group $G$, we consider a collection\n$\\{M_i\\}_{i=1}^n$ of finitely generated $\\Z G$-modules that admit a submodule\ndecomposition on which $G$ acts by permuting the summands. Then we prove the\nexistence of connected finite spaces $X$ that realize each $M_i$ as its $i$-th\nhomology, $G$ as its group of self-homotopy equivalences $\\E(X)$, and the\naction of $G$ on each $M_i$ as the action of $\\E(X)$ on $H_i(X; \\Z)$.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:26:10 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Costoya","Cristina",""],["Gomes","Rafael",""],["Viruel","Antonio",""]]}
+{"id":"2308.16676","submitter":"Weijie Yan","authors":"Wei-Jie Yan, Yun-Kai Xu, Qian Chen, Xiao-Fang Kong, Guo-Hua Gu, A-Jun\n Shao, Min-Jie Wan","title":"Twofold Structured Features-Based Siamese Network for Infrared Target\n Tracking","comments":"13 pages,9 figures,references added","journal-ref":null,"doi":null,"report-no":null,"categories":"eess.IV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Nowadays, infrared target tracking has been a critical technology in the\nfield of computer vision and has many applications, such as motion analysis,\npedestrian surveillance, intelligent detection, and so forth. Unfortunately,\ndue to the lack of color, texture and other detailed information, tracking\ndrift often occurs when the tracker encounters infrared targets that vary in\nsize or shape. To address this issue, we present a twofold structured\nfeatures-based Siamese network for infrared target tracking. First of all, in\norder to improve the discriminative capacity for infrared targets, a novel\nfeature fusion network is proposed to fuse both shallow spatial information and\ndeep semantic information into the extracted features in a comprehensive\nmanner. Then, a multi-template update module based on template update mechanism\nis designed to effectively deal with interferences from target appearance\nchanges which are prone to cause early tracking failures. Finally, both\nqualitative and quantitative experiments are carried out on VOT-TIR 2016\ndataset, which demonstrates that our method achieves the balance of promising\ntracking performance and real-time tracking speed against other out-of-the-art\ntrackers.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:28:09 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Yan","Wei-Jie",""],["Xu","Yun-Kai",""],["Chen","Qian",""],["Kong","Xiao-Fang",""],["Gu","Guo-Hua",""],["Shao","A-Jun",""],["Wan","Min-Jie",""]]}
+{"id":"2308.16677","submitter":"Nick R.D. Zhu","authors":"Yang Lei, Hongfei Shu, Kilar Zhang, Rui-Dong Zhu","title":"Quasinormal Modes of C-metric from SCFTs","comments":"46+8 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-th astro-ph.HE gr-qc hep-ph math-ph math.MP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We study the quasinormal modes (QNM) of the charged C-metric, which\nphysically stands for a charged accelerating black hole, with the help of\nNekrasov's partition function of 4d $\\mathcal{N}=2$ superconformal field\ntheories (SCFTs). The QNM in the charged C-metric are classified into three\ntypes: the photon-surface modes, the accelerating modes and the near-extremal\nmodes, and it is curious how the single quantization condition proposed in\narXiv:2006.06111 can reproduce all the different families. We show that the\nconnection formula encoded in terms of Nekrasov's partition function captures\nall these families of QNM numerically and recovers the asymptotic behavior of\nthe accelerating and the near-extremal modes analytically. Using the connection\nformulae of different 4d $\\mathcal{N}=2$ SCFTs, one can solve both the radial\nand the angular part of the scalar perturbation equation respectively. The same\nalgorithm can be applied to the de Sitter (dS) black holes to calculate both\nthe dS modes and the photon-sphere modes.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:28:39 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Lei","Yang",""],["Shu","Hongfei",""],["Zhang","Kilar",""],["Zhu","Rui-Dong",""]]}
+{"id":"2308.16678","submitter":"Riccardo Miccini","authors":"Riccardo Miccini, Alaa Zniber, Cl\\'ement Laroche, Tobias Piechowiak,\n Martin Schoeberl, Luca Pezzarossa, Ouassim Karrakchou, Jens Spars{\\o}, Mounir\n Ghogho","title":"Dynamic nsNet2: Efficient Deep Noise Suppression with Early Exiting","comments":"Accepted at the MLSP 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SD cs.LG eess.AS","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Although deep learning has made strides in the field of deep noise\nsuppression, leveraging deep architectures on resource-constrained devices\nstill proved challenging. Therefore, we present an early-exiting model based on\nnsNet2 that provides several levels of accuracy and resource savings by halting\ncomputations at different stages. Moreover, we adapt the original architecture\nby splitting the information flow to take into account the injected dynamism.\nWe show the trade-offs between performance and computational complexity based\non established metrics.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:29:24 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Miccini","Riccardo",""],["Zniber","Alaa",""],["Laroche","Cl\u00e9ment",""],["Piechowiak","Tobias",""],["Schoeberl","Martin",""],["Pezzarossa","Luca",""],["Karrakchou","Ouassim",""],["Spars\u00f8","Jens",""],["Ghogho","Mounir",""]]}
+{"id":"2308.16679","submitter":"Roghayeh Maleki","authors":"Blas Fern\\'andez, Roghayeh Maleki, \\v{S}tefko Miklavi\\v{c}, Giusy\n Monzillo","title":"Distance-regular graphs with classical parameters that support a uniform\n structure: case $q \\ge 2$","comments":"arXiv admin note: substantial text overlap with arXiv:2305.08937","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Let $\\Gamma=(X,\\mathcal{R})$ denote a finite, simple, connected, and\nundirected non-bipartite graph with vertex set $X$ and edge set $\\mathcal{R}$.\nFix a vertex $x \\in X$, and define $\\mathcal{R}_f = \\mathcal{R} \\setminus \\{yz\n\\mid \\partial(x,y) = \\partial(x,z)\\}$, where $\\partial$ denotes the path-length\ndistance in $\\Gamma$. Observe that the graph $\\Gamma_f=(X,\\mathcal{R}_f)$ is\nbipartite. We say that $\\Gamma$ supports a uniform structure with respect to\n$x$ whenever $\\Gamma_f$ has a uniform structure with respect to $x$ in the\nsense of Miklavi\\v{c} and Terwilliger \\cite{MikTer}.\n Assume that $\\Gamma$ is a distance-regular graph with classical parameters\n$(D,q,\\alpha,\\beta)$ and diameter $D\\geq 4$. Recall that $q$ is an integer such\nthat $q \\not \\in \\{-1,0\\}$. The purpose of this paper is to study when $\\Gamma$\nsupports a uniform structure with respect to $x$. We studied the case $q \\le 1$\nin \\cite{FMMM}, and so in this paper we assume $q \\geq 2$. Let $T=T(x)$ denote\nthe Terwilliger algebra of $\\Gamma$ with respect to $x$. Under an additional\nassumption that every irreducible $T$-module with endpoint $1$ is thin, we show\nthat if $\\Gamma$ supports a uniform structure with respect to $x$, then either\n$\\alpha = 0$ or $\\alpha=q$, $\\beta=q^2(q^D-1)/(q-1)$, and $D \\equiv 0\n\\pmod{6}$.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:29:40 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Fern\u00e1ndez","Blas",""],["Maleki","Roghayeh",""],["Miklavi\u010d","\u0160tefko",""],["Monzillo","Giusy",""]]}
+{"id":"2308.16680","submitter":"Michael Kagan","authors":"Michael Kagan and Lukas Heinrich","title":"Branches of a Tree: Taking Derivatives of Programs with Discrete and\n Branching Randomness in High Energy Physics","comments":"8 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"stat.ML cs.LG hep-ex hep-ph physics.data-an","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We propose to apply several gradient estimation techniques to enable the\ndifferentiation of programs with discrete randomness in High Energy Physics.\nSuch programs are common in High Energy Physics due to the presence of\nbranching processes and clustering-based analysis. Thus differentiating such\nprograms can open the way for gradient based optimization in the context of\ndetector design optimization, simulator tuning, or data analysis and\nreconstruction optimization. We discuss several possible gradient estimation\nstrategies, including the recent Stochastic AD method, and compare them in\nsimplified detector design experiments. In doing so we develop, to the best of\nour knowledge, the first fully differentiable branching program.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:32:34 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Kagan","Michael",""],["Heinrich","Lukas",""]]}
+{"id":"2308.16681","submitter":"Jan Simson","authors":"Jan Simson and Florian Pfisterer and Christoph Kern","title":"Everything, Everywhere All in One Evaluation: Using Multiverse Analysis\n to Evaluate the Influence of Model Design Decisions on Algorithmic Fairness","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"stat.ML cs.LG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" A vast number of systems across the world use algorithmic decision making\n(ADM) to (partially) automate decisions that have previously been made by\nhumans. When designed well, these systems promise more objective decisions\nwhile saving large amounts of resources and freeing up human time. However,\nwhen ADM systems are not designed well, they can lead to unfair decisions which\ndiscriminate against societal groups. The downstream effects of ADMs critically\ndepend on the decisions made during the systems' design and implementation, as\nbiases in data can be mitigated or reinforced along the modeling pipeline. Many\nof these design decisions are made implicitly, without knowing exactly how they\nwill influence the final system. It is therefore important to make explicit the\ndecisions made during the design of ADM systems and understand how these\ndecisions affect the fairness of the resulting system.\n To study this issue, we draw on insights from the field of psychology and\nintroduce the method of multiverse analysis for algorithmic fairness. In our\nproposed method, we turn implicit design decisions into explicit ones and\ndemonstrate their fairness implications. By combining decisions, we create a\ngrid of all possible \"universes\" of decision combinations. For each of these\nuniverses, we compute metrics of fairness and performance. Using the resulting\ndataset, one can see how and which decisions impact fairness. We demonstrate\nhow multiverse analyses can be used to better understand variability and\nrobustness of algorithmic fairness using an exemplary case study of predicting\npublic health coverage of vulnerable populations for potential interventions.\nOur results illustrate how decisions during the design of a machine learning\nsystem can have surprising effects on its fairness and how to detect these\neffects using multiverse analysis.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:32:43 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Simson","Jan",""],["Pfisterer","Florian",""],["Kern","Christoph",""]]}
+{"id":"2308.16682","submitter":"Tom Van Wouwe","authors":"Tom Van Wouwe, Seunghwan Lee, Antoine Falisse, Scott Delp, C. Karen\n Liu","title":"Diffusion Inertial Poser: Human Motion Reconstruction from Arbitrary\n Sparse IMU Configurations","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Motion capture from a limited number of inertial measurement units (IMUs) has\nimportant applications in health, human performance, and virtual reality.\nReal-world limitations and application-specific goals dictate different IMU\nconfigurations (i.e., number of IMUs and chosen attachment body segments),\ntrading off accuracy and practicality. Although recent works were successful in\naccurately reconstructing whole-body motion from six IMUs, these systems only\nwork with a specific IMU configuration. Here we propose a single diffusion\ngenerative model, Diffusion Inertial Poser (DiffIP), which reconstructs human\nmotion in real-time from arbitrary IMU configurations. We show that DiffIP has\nthe benefit of flexibility with respect to the IMU configuration while being as\naccurate as the state-of-the-art for the commonly used six IMU configuration.\nOur system enables selecting an optimal configuration for different\napplications without retraining the model. For example, when only four IMUs are\navailable, DiffIP found that the configuration that minimizes errors in joint\nkinematics instruments the thighs and forearms. However, global translation\nreconstruction is better when instrumenting the feet instead of the thighs.\nAlthough our approach is agnostic to the underlying model, we built DiffIP\nbased on physiologically realistic musculoskeletal models to enable use in\nbiomedical research and health applications.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:36:50 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Van Wouwe","Tom",""],["Lee","Seunghwan",""],["Falisse","Antoine",""],["Delp","Scott",""],["Liu","C. Karen",""]]}
+{"id":"2308.16683","submitter":"Piotr Podlaski","authors":"H. Adhikary, P. Adrich, K.K. Allison, N. Amin, E.V. Andronov, T.\n Anti\\'ci\\'c, I.-C. Arsene, M. Bajda, Y. Balkova, M. Baszczyk, D. Battaglia,\n A. Bazgir, S. Bhosale, M. Bielewicz, A. Blondel, M. Bogomilov, Y. Bondar, N.\n Bostan, A. Brandin, W. Bryli\\'nski, J. Brzychczyk, M. Buryakov, A.F. Camino,\n M. \\'Cirkovi\\'c, M. Csan\\'ad, J. Cybowska, T. Czopowicz, C. Dalmazzone, N.\n Davis, A. Dmitriev, P. von Doetinchem, W. Dominik, P. Dorosz, J. Dumarchez,\n R. Engel, G.A. Feofilov, L. Fields, Z. Fodor, M. Friend, M. Ga\\'zdzicki, O.\n Golosov, V. Golovatyuk, M. Golubeva, K. Grebieszkow, F. Guber, S.N. Igolkin,\n S. Ilieva, A. Ivashkin, A. Izvestnyy, K. Kadija, N. Kargin, N. Karpushkin, E.\n Kashirin, M. Kie{\\l}bowicz, V.A. Kireyeu, H. Kitagawa, R. Kolesnikov, D.\n Kolev, Y. Koshio, V.N. Kovalenko, S. Kowalski, B. Koz{\\l}owski, A.\n Krasnoperov, W. Kucewicz, M. Kuchowicz, M. Kuich, A. Kurepin, A. L\\'aszl\\'o,\n M. Lewicki, G. Lykasov, V.V. Lyubushkin, M. Ma\\'ckowiak-Paw{\\l}owska, Z.\n Majka, A. Makhnev, B. Maksiak, A.I. Malakhov, A. Marcinek, A.D. Marino, H.-J.\n Mathes, T. Matulewicz, V. Matveev, G.L. Melkumov, A. Merzlaya, {\\L}. Mik, A.\n Morawiec, S. Morozov, Y. Nagai, T. Nakadaira, M. Naskret, S. Nishimori, V.\n Ozvenchuk, O. Panova, V. Paolone, O. Petukhov, I. Pidhurskyi, R. P{\\l}aneta,\n P. Podlaski, B.A. Popov, B. P\\'orfy, M. Posiada{\\l}a-Zezula, D.S. Prokhorova,\n D. Pszczel, S. Pu{\\l}awski, J. Puzovi\\'c{\\dag}, R. Renfordt, L. Ren, V.Z.\n Reyna Ortiz, D. R\\\"ohrich, E. Rondio, M. Roth, {\\L}. Rozp{\\l}ochowski, B.T.\n Rumberger, M. Rumyantsev, A. Rustamov, M. Rybczynski, A. Rybicki, K.\n Sakashita, K. Schmidt, A.Yu. Seryakov, P. Seyboth, U.A. Shah, Y. Shiraishi,\n A. Shukla, M. S{\\l}odkowski, P. Staszel, G. Stefanek, J. Stepaniak, M.\n Strikhanov, H. Str\\\"obele, T. \\v{S}u\\v{s}a, L. Swiderski, J. Szewi\\'nski, R.\n Szukiewicz, A. Taranenko, A. Tefelska, D. Tefelski, V. Tereshchenko, A. Toia,\n R. Tsenov, L. Turko, T.S. Tveter, M. Unger, M. Urbaniak, F.F. Valiev, D.\n Veberi\\v{c}, V.V. Vechernin, V. Volkov, A. Wickremasinghe, K. W\\'ojcik, O.\n Wyszy\\'nski, A. Zaitsev, E.D. Zimmerman, A. Zviagina, R. Zwaska","title":"Measurements of $\\pi^\\pm$, $K^\\pm$, $p$ and $\\bar{p}$ spectra in\n $^{40}$Ar+$^{45}$Sc collisions at 13$A$ to 150$A$ GeV/$c$","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"nucl-ex hep-ex","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The NA61/SHINE experiment at the CERN Super Proton Synchrotron studies the\nonset of deconfinement in strongly interacting matter through a beam energy\nscan of particle production in collisions of nuclei of varied sizes. This paper\npresents results on inclusive double-differential spectra, transverse momentum\nand rapidity distributions and mean multiplicities of $\\pi^\\pm$, $K^\\pm$, $p$\nand $\\bar{p}$ produced in $^{40}$Ar+$^{45}$Sc collisions at beam momenta of\n13$A$, 19$A$, 30$A$, 40$A$, 75$A$ and 150$A$ GeV/$c$. The analysis uses the 10%\nmost central collisions, where the observed forward energy defines centrality.\nThe energy dependence of the $K^\\pm$/$\\pi^\\pm$ ratios as well as of inverse\nslope parameters of the $K^\\pm$ transverse mass distributions are placed in\nbetween those found in inelastic $p$+$p$ and central Pb+Pb collisions. The\nresults obtained here establish a system-size dependence of hadron production\nproperties that so far cannot be explained either within statistical (SMES,\nHRG) or dynamical (EPOS, UrQMD, PHSD, SMASH) models.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:37:33 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Adhikary","H.",""],["Adrich","P.",""],["Allison","K. K.",""],["Amin","N.",""],["Andronov","E. V.",""],["Anti\u0107i\u0107","T.",""],["Arsene","I. -C.",""],["Bajda","M.",""],["Balkova","Y.",""],["Baszczyk","M.",""],["Battaglia","D.",""],["Bazgir","A.",""],["Bhosale","S.",""],["Bielewicz","M.",""],["Blondel","A.",""],["Bogomilov","M.",""],["Bondar","Y.",""],["Bostan","N.",""],["Brandin","A.",""],["Bryli\u0144ski","W.",""],["Brzychczyk","J.",""],["Buryakov","M.",""],["Camino","A. F.",""],["\u0106irkovi\u0107","M.",""],["Csan\u00e1d","M.",""],["Cybowska","J.",""],["Czopowicz","T.",""],["Dalmazzone","C.",""],["Davis","N.",""],["Dmitriev","A.",""],["von Doetinchem","P.",""],["Dominik","W.",""],["Dorosz","P.",""],["Dumarchez","J.",""],["Engel","R.",""],["Feofilov","G. A.",""],["Fields","L.",""],["Fodor","Z.",""],["Friend","M.",""],["Ga\u017adzicki","M.",""],["Golosov","O.",""],["Golovatyuk","V.",""],["Golubeva","M.",""],["Grebieszkow","K.",""],["Guber","F.",""],["Igolkin","S. N.",""],["Ilieva","S.",""],["Ivashkin","A.",""],["Izvestnyy","A.",""],["Kadija","K.",""],["Kargin","N.",""],["Karpushkin","N.",""],["Kashirin","E.",""],["Kie\u0142bowicz","M.",""],["Kireyeu","V. A.",""],["Kitagawa","H.",""],["Kolesnikov","R.",""],["Kolev","D.",""],["Koshio","Y.",""],["Kovalenko","V. N.",""],["Kowalski","S.",""],["Koz\u0142owski","B.",""],["Krasnoperov","A.",""],["Kucewicz","W.",""],["Kuchowicz","M.",""],["Kuich","M.",""],["Kurepin","A.",""],["L\u00e1szl\u00f3","A.",""],["Lewicki","M.",""],["Lykasov","G.",""],["Lyubushkin","V. V.",""],["Ma\u0107kowiak-Paw\u0142owska","M.",""],["Majka","Z.",""],["Makhnev","A.",""],["Maksiak","B.",""],["Malakhov","A. I.",""],["Marcinek","A.",""],["Marino","A. D.",""],["Mathes","H. -J.",""],["Matulewicz","T.",""],["Matveev","V.",""],["Melkumov","G. L.",""],["Merzlaya","A.",""],["Mik","\u0141.",""],["Morawiec","A.",""],["Morozov","S.",""],["Nagai","Y.",""],["Nakadaira","T.",""],["Naskret","M.",""],["Nishimori","S.",""],["Ozvenchuk","V.",""],["Panova","O.",""],["Paolone","V.",""],["Petukhov","O.",""],["Pidhurskyi","I.",""],["P\u0142aneta","R.",""],["Podlaski","P.",""],["Popov","B. A.",""],["P\u00f3rfy","B.",""],["Posiada\u0142a-Zezula","M.",""],["Prokhorova","D. S.",""],["Pszczel","D.",""],["Pu\u0142awski","S.",""],["Puzovi\u0107\u2020","J.",""],["Renfordt","R.",""],["Ren","L.",""],["Ortiz","V. Z. Reyna",""],["R\u00f6hrich","D.",""],["Rondio","E.",""],["Roth","M.",""],["Rozp\u0142ochowski","\u0141.",""],["Rumberger","B. T.",""],["Rumyantsev","M.",""],["Rustamov","A.",""],["Rybczynski","M.",""],["Rybicki","A.",""],["Sakashita","K.",""],["Schmidt","K.",""],["Seryakov","A. Yu.",""],["Seyboth","P.",""],["Shah","U. A.",""],["Shiraishi","Y.",""],["Shukla","A.",""],["S\u0142odkowski","M.",""],["Staszel","P.",""],["Stefanek","G.",""],["Stepaniak","J.",""],["Strikhanov","M.",""],["Str\u00f6bele","H.",""],["\u0160u\u0161a","T.",""],["Swiderski","L.",""],["Szewi\u0144ski","J.",""],["Szukiewicz","R.",""],["Taranenko","A.",""],["Tefelska","A.",""],["Tefelski","D.",""],["Tereshchenko","V.",""],["Toia","A.",""],["Tsenov","R.",""],["Turko","L.",""],["Tveter","T. S.",""],["Unger","M.",""],["Urbaniak","M.",""],["Valiev","F. F.",""],["Veberi\u010d","D.",""],["Vechernin","V. V.",""],["Volkov","V.",""],["Wickremasinghe","A.",""],["W\u00f3jcik","K.",""],["Wyszy\u0144ski","O.",""],["Zaitsev","A.",""],["Zimmerman","E. D.",""],["Zviagina","A.",""],["Zwaska","R.",""]]}
+{"id":"2308.16684","submitter":"Chee Seng Chan","authors":"Sze Jue Yang and Quang Nguyen and Chee Seng Chan and Khoa Doan","title":"Everyone Can Attack: Repurpose Lossy Compression as a Natural Backdoor\n Attack","comments":"14 pages. This paper shows everyone can mount a powerful and stealthy\n backdoor attack with the widely-used lossy image compression","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CR cs.AI cs.CV cs.LG","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" The vulnerabilities to backdoor attacks have recently threatened the\ntrustworthiness of machine learning models in practical applications.\nConventional wisdom suggests that not everyone can be an attacker since the\nprocess of designing the trigger generation algorithm often involves\nsignificant effort and extensive experimentation to ensure the attack's\nstealthiness and effectiveness. Alternatively, this paper shows that there\nexists a more severe backdoor threat: anyone can exploit an easily-accessible\nalgorithm for silent backdoor attacks. Specifically, this attacker can employ\nthe widely-used lossy image compression from a plethora of compression tools to\neffortlessly inject a trigger pattern into an image without leaving any\nnoticeable trace; i.e., the generated triggers are natural artifacts. One does\nnot require extensive knowledge to click on the \"convert\" or \"save as\" button\nwhile using tools for lossy image compression. Via this attack, the adversary\ndoes not need to design a trigger generator as seen in prior works and only\nrequires poisoning the data. Empirically, the proposed attack consistently\nachieves 100% attack success rate in several benchmark datasets such as MNIST,\nCIFAR-10, GTSRB and CelebA. More significantly, the proposed attack can still\nachieve almost 100% attack success rate with very small (approximately 10%)\npoisoning rates in the clean label setting. The generated trigger of the\nproposed attack using one lossy compression algorithm is also transferable\nacross other related compression algorithms, exacerbating the severity of this\nbackdoor threat. This work takes another crucial step toward understanding the\nextensive risks of backdoor attacks in practice, urging practitioners to\ninvestigate similar attacks and relevant backdoor mitigation methods.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:38:29 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Yang","Sze Jue",""],["Nguyen","Quang",""],["Chan","Chee Seng",""],["Doan","Khoa",""]]}
+{"id":"2308.16685","submitter":"Masha Chernyakova","authors":"Felix Aharonian, Denys Malyshev and Maria Chernyakova","title":"On the nature of the energy-dependent morphology of the composite\n multi-TeV gamma-ray source HESS J1702-420","comments":"accepted to ApJ","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.HE","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" HESS J1702-420 is a multi-TeV gamma-ray source with an unusual\nenergy-dependent morphology. The recent H.E.S.S. observations suggest that the\nemission is well described by a combination of point-like HESS J1702-420A\n(dominating at highest energies, $\\gtrsim$ 30 TeV ) and diffuse ($\\sim$\n0.3$^\\circ$) HESS J1702-420B (dominating below $\\lesssim$ 5TeV) sources with\nvery hard (${\\Gamma} \\sim 1.5$) and soft (${\\Gamma}$ ~2.6) power-law spectra,\nrespectively. Here we propose a model which postulates that the proton\naccelerator is located at the position of HESS J1702-420A and is embedded into\na dense molecular cloud that coincides with HESS J1702-420B. In the proposed\nmodel, the VHE radiation of HESS J1702-420 is explained by the pion-decay\nemission from the continuously injected relativistic protons propagating\nthrough a dense cloud. The energy-dependent morphology is defined by the\ndiffusive nature of the low-energy protons propagation, transiting sharply to\n(quasi) ballistic propagation at higher energies. Adopting strong energy\ndependence of the diffusion coefficient, $D \\propto E^\\beta$ with $\\beta \\geq\n1$, we argue that HESS J1702-420 as the system of two gamma-ray sources is the\nresult of the propagation effect. Protons injected by a single accelerator at\nthe rate $Q_0 \\simeq 10^{38} \\, (n_0/100 \\, \\rm cm^{-3})^{-1}\\, (d/ \\,\n0.25\\,kpc)^{-1} \\rm erg/s$ can reasonably reproduce the morphology and fluxes\nof two gamma-ray components.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:38:58 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Aharonian","Felix",""],["Malyshev","Denys",""],["Chernyakova","Maria",""]]}
+{"id":"2308.16686","submitter":"Justyn Maund","authors":"J.R. Maund","title":"Exploring the Polarization of Axially Symmetric Supernovae with\n Unsupervised Deep Learning","comments":"16 pages, 14 figures, MNRAS accepted","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.SR astro-ph.HE","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The measurement of non-zero polarization can be used to infer the presence of\ndepartures from spherical symmetry in supernovae (SNe). The origin of the\nmajority of the intrinsic polarization observed in SNe is in electron\nscattering, which induces a wavelength-independent continuum polarization that\nis generally observed to be low (<1%) for all SN types. The key indicator of\nasymmetry in SNe is the polarization observed across spectral lines, in\nparticular the characteristic ``inverse P Cygni'' profile. The results of a\nsuite of 900 Monte Carlo radiative transfer simulations are presented here.\nThese simulations cover a range of possible axisymmetric structures (including\nunipolar, bipolar and equatorial enhancements) for the line forming region of\nthe Ca II infrared triplet. Using a Variational Autoencoder, 7 key latent\nparameters are learned that describe the relationship between Stokes I and\nStokes q, under the assumption of an axially symmetric line forming region and\nresonant scattering. Likelihood-free inference techniques are used to invert\nthe Stokes I and q line profiles, in the latent space, to derive the underlying\ngeometries. For axially symmetric structures, that yield an observable\n``dominant axis'' on the Stokes $q-u$ plane, we propose the existence of a\ngeometry ``conjugate\" (which is indistinguishable under a rotation of $\\pi\n/2$). Using this machine learning infrastructure, we attempt to identify\npossible geometries associated with spectropolarimetric observations of the\nType Ib SN 2017gax.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:42:16 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Maund","J. R.",""]]}
+{"id":"2308.16687","submitter":"Avi Shmidman","authors":"Shaltiel Shmidman, Avi Shmidman, Moshe Koppel","title":"DictaBERT: A State-of-the-Art BERT Suite for Modern Hebrew","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" We present DictaBERT, a new state-of-the-art pre-trained BERT model for\nmodern Hebrew, outperforming existing models on most benchmarks. Additionally,\nwe release two fine-tuned versions of the model, designed to perform two\nspecific foundational tasks in the analysis of Hebrew texts: prefix\nsegmentation and morphological tagging. These fine-tuned models allow any\ndeveloper to perform prefix segmentation and morphological tagging of a Hebrew\nsentence with a single call to a HuggingFace model, without the need to\nintegrate any additional libraries or code. In this paper we describe the\ndetails of the training as well and the results on the different benchmarks. We\nrelease the models to the community, along with sample code demonstrating their\nuse. We release these models as part of our goal to help further research and\ndevelopment in Hebrew NLP.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:43:18 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Shmidman","Shaltiel",""],["Shmidman","Avi",""],["Koppel","Moshe",""]]}
+{"id":"2308.16688","submitter":"Hina Raja","authors":"Hina Raja, Asim Munawar, Mohammad Delsoz, Mohammad Elahi, Yeganeh\n Madadi, Amr Hassan, Hashem Abu Serhan, Onur Inam, Luis Hermandez, Sang Tran,\n Wuqas Munir, Alaa Abd-Alrazaq, Hao Chen, and SiamakYousefi","title":"Using Large Language Models to Automate Category and Trend Analysis of\n Scientific Articles: An Application in Ophthalmology","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL cs.AI","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Purpose: In this paper, we present an automated method for article\nclassification, leveraging the power of Large Language Models (LLM). The\nprimary focus is on the field of ophthalmology, but the model is extendable to\nother fields. Methods: We have developed a model based on Natural Language\nProcessing (NLP) techniques, including advanced LLMs, to process and analyze\nthe textual content of scientific papers. Specifically, we have employed\nzero-shot learning (ZSL) LLM models and compared against Bidirectional and\nAuto-Regressive Transformers (BART) and its variants, and Bidirectional Encoder\nRepresentations from Transformers (BERT), and its variant such as distilBERT,\nSciBERT, PubmedBERT, BioBERT. Results: The classification results demonstrate\nthe effectiveness of LLMs in categorizing large number of ophthalmology papers\nwithout human intervention. Results: To evalute the LLMs, we compiled a dataset\n(RenD) of 1000 ocular disease-related articles, which were expertly annotated\nby a panel of six specialists into 15 distinct categories. The model achieved\nmean accuracy of 0.86 and mean F1 of 0.85 based on the RenD dataset.\nConclusion: The proposed framework achieves notable improvements in both\naccuracy and efficiency. Its application in the domain of ophthalmology\nshowcases its potential for knowledge organization and retrieval in other\ndomains too. We performed trend analysis that enables the researchers and\nclinicians to easily categorize and retrieve relevant papers, saving time and\neffort in literature review and information gathering as well as identification\nof emerging scientific trends within different disciplines. Moreover, the\nextendibility of the model to other scientific fields broadens its impact in\nfacilitating research and trend analysis across diverse disciplines.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:45:53 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Raja","Hina",""],["Munawar","Asim",""],["Delsoz","Mohammad",""],["Elahi","Mohammad",""],["Madadi","Yeganeh",""],["Hassan","Amr",""],["Serhan","Hashem Abu",""],["Inam","Onur",""],["Hermandez","Luis",""],["Tran","Sang",""],["Munir","Wuqas",""],["Abd-Alrazaq","Alaa",""],["Chen","Hao",""],["SiamakYousefi","",""]]}
+{"id":"2308.16689","submitter":"Zhen Yang","authors":"Weihan Wang, Zhen Yang, Bin Xu, Juanzi Li, Yankui Sun","title":"ViLTA: Enhancing Vision-Language Pre-training through Textual\n Augmentation","comments":"15 pages, 5 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Vision-language pre-training (VLP) methods are blossoming recently, and its\ncrucial goal is to jointly learn visual and textual features via a\ntransformer-based architecture, demonstrating promising improvements on a\nvariety of vision-language tasks. Prior arts usually focus on how to align\nvisual and textual features, but strategies for improving the robustness of\nmodel and speeding up model convergence are left insufficiently explored.\n In this paper, we propose a novel method ViLTA, comprising of two components\nto further facilitate the model to learn fine-grained representations among\nimage-text pairs. For Masked Language Modeling (MLM), we propose a\ncross-distillation method to generate soft labels to enhance the robustness of\nmodel, which alleviates the problem of treating synonyms of masked words as\nnegative samples in one-hot labels. For Image-Text Matching (ITM), we leverage\nthe current language encoder to synthesize hard negatives based on the context\nof language input, encouraging the model to learn high-quality representations\nby increasing the difficulty of the ITM task. By leveraging the above\ntechniques, our ViLTA can achieve better performance on various vision-language\ntasks. Extensive experiments on benchmark datasets demonstrate that the\neffectiveness of ViLTA and its promising potential for vision-language\npre-training.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:46:36 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Wang","Weihan",""],["Yang","Zhen",""],["Xu","Bin",""],["Li","Juanzi",""],["Sun","Yankui",""]]}
+{"id":"2308.16690","submitter":"Wenjing Li","authors":"Wenjing Li, Wei Bian, Kim-Chuan Toh","title":"On solving a rank regularized minimization problem via equivalent\n factorized column-sparse regularized models","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.OC","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Rank regularized minimization problem is an ideal model for the low-rank\nmatrix completion/recovery problem. The matrix factorization approach can\ntransform the high-dimensional rank regularized problem to a low-dimensional\nfactorized column-sparse regularized problem. The latter can greatly facilitate\nfast computations in applicable algorithms, but needs to overcome the\nsimultaneous non-convexity of the loss and regularization functions. In this\npaper, we consider the factorized column-sparse regularized model. Firstly, we\noptimize this model with bound constraints, and establish a certain equivalence\nbetween the optimized factorization problem and rank regularized problem.\nFurther, we strengthen the optimality condition for stationary points of the\nfactorization problem and define the notion of strong stationary point.\nMoreover, we establish the equivalence between the factorization problem and\nits a nonconvex relaxation in the sense of global minimizers and strong\nstationary points. To solve the factorization problem, we design two types of\nalgorithms and give an adaptive method to reduce their computation. The first\nalgorithm is from the relaxation point of view and its iterates own some\nproperties from global minimizers of the factorization problem after finite\niterations. We give some analysis on the convergence of its iterates to the\nstrong stationary point. The second algorithm is designed for directly solving\nthe factorization problem. We improve the PALM algorithm introduced by Bolte et\nal. (Math Program Ser A 146:459-494, 2014) for the factorization problem and\ngive its improved convergence results. Finally, we conduct numerical\nexperiments to show the promising performance of the proposed model and\nalgorithms for low-rank matrix completion.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:50:19 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Li","Wenjing",""],["Bian","Wei",""],["Toh","Kim-Chuan",""]]}
+{"id":"2308.16691","submitter":"Elena V. Mikheeva","authors":"A.M. Malinovsky (1), E.V. Mikheeva (1) ((1) Astro Space Center of P.N.\n Lebedev Physical Institute of RAS, Moscow, Russia)","title":"Prospects for observing supermassive black hole binaries with the\n space-ground interferometer","comments":"15 pages, 6 figures, 2 table, accepted for publication in Astronomy\n Reports","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" A list of candidates for \\textit{supermassive binary black holes} (SMBBHs),\ncompiled from available data on the variability in the optical range and the\nshape of the emission spectrum, is analysed. An artificial neural network is\nconstructed to estimate the radiation flux at 240~GHz. For those candidate\nSMBBH for which the network building procedure was feasible, the criterion of\nthe possibility of observing the source at the \\textit{Millimetron Space\nObservatory} (MSO) was tested. The result is presented as a table of 17\ncandidate SMBBHs. Confirmation (or refutation) of the duality of these objects\nby means of observational data which could be commited on a space-ground\ninterferometer with parameters similar to those of the MSO will be an important\nmilestone in the development of the theory of galaxy formation.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:51:02 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Malinovsky","A. M.",""],["Mikheeva","E. V.",""]]}
+{"id":"2308.16692","submitter":"Dong Zhang Zhang","authors":"Xin Zhang, Dong Zhang, Shimin Li, Yaqian Zhou, Xipeng Qiu","title":"SpeechTokenizer: Unified Speech Tokenizer for Speech Large Language\n Models","comments":"SpeechTokenizer project page is\n https://0nutation.github.io/SpeechTokenizer.github.io/","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL cs.SD eess.AS","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" Current speech large language models build upon discrete speech\nrepresentations, which can be categorized into semantic tokens and acoustic\ntokens. However, existing speech tokens are not specifically designed for\nspeech language modeling. To assess the suitability of speech tokens for\nbuilding speech language models, we established the first benchmark,\nSLMTokBench. Our results indicate that neither semantic nor acoustic tokens are\nideal for this purpose. Therefore, we propose SpeechTokenizer, a unified speech\ntokenizer for speech large language models. SpeechTokenizer adopts the\nEncoder-Decoder architecture with residual vector quantization (RVQ). Unifying\nsemantic and acoustic tokens, SpeechTokenizer disentangles different aspects of\nspeech information hierarchically across different RVQ layers. Furthermore, We\nconstruct a Unified Speech Language Model (USLM) leveraging SpeechTokenizer.\nExperiments show that SpeechTokenizer performs comparably to EnCodec in speech\nreconstruction and demonstrates strong performance on the SLMTokBench\nbenchmark. Also, USLM outperforms VALL-E in zero-shot Text-to-Speech tasks.\nCode and models are available at\nhttps://github.com/ZhangXInFD/SpeechTokenizer/.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:53:09 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zhang","Xin",""],["Zhang","Dong",""],["Li","Shimin",""],["Zhou","Yaqian",""],["Qiu","Xipeng",""]]}
+{"id":"2308.16693","submitter":"Sebastien Aumaitre","authors":"Enzo Francisco, Vincent Bouillaut, Tong Wu and S\\'ebastien Auma\\^itre","title":"Spatio-temporal boundary dissipation measurement in Taylor-Couette flow\n using Diffusing-Wave Spectroscopy","comments":"12 pages, 6 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.flu-dyn","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Diffusing-Wave Spectroscopy (DWS) allows for the direct measurement of the\nsquared strain-rate tensor. When combined with commonly available high-speed\ncameras, we show that DWS gives direct access to the spatio-temporal variations\nof the viscous dissipation rate of a Newtonian fluid flow. The method is\ndemonstrated using a Taylor-Couette (TC) cell filled with a lipid emulsion or a\n\\ch{TiO2} suspension. We image the boundary dissipation rate in a quantitative\nand time-resolved fashion by shining coherent light at the experimental cell\nand measuring the local correlation time of the speckle pattern. The results\nare validated by comparison with the theoretical prediction for an ideal TC\nflow and with global measurements using a photomultiplier tube and a photon\ncorrelator. We illustrate the method by characterizing the spatial organization\nof the boundary dissipation rate past the Taylor-Couette instability threshold,\nand its spatio-temporal dynamics in the wavy vortex flow that arises beyond a\nsecondary instability threshold. This study paves the way for direct imaging of\nthe dissipation rate in a large variety of flows, including turbulent ones.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:59:07 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Francisco","Enzo",""],["Bouillaut","Vincent",""],["Wu","Tong",""],["Auma\u00eetre","S\u00e9bastien",""]]}
+{"id":"2308.16694","submitter":"Thomas Rush MPhys","authors":"Tom Rush","title":"On the superadditive pressure for 1-typical, one-step, matrix-cocycle\n potentials","comments":"38 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.DS math-ph math.MP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Let $(\\Sigma_T,\\sigma)$ be a subshift of finite type with primitive adjacency\nmatrix $T$, $\\psi:\\Sigma_T \\rightarrow \\mathbb{R}$ a H\\\"older continuous\npotential, and $\\mathcal{A}:\\Sigma_T \\rightarrow \\mathrm{GL}_d(\\mathbb{R})$ a\n1-typical, one-step cocycle. For $t \\in \\mathbb{R}$ consider the sequences of\npotentials $\\Phi_t=(\\varphi_{t,n})_{n \\in \\mathbb{N}}$ defined by\n$$\\varphi_{t,n}(x):=S_n \\psi(x) + t\\log \\|\\mathcal{A}^n(x)\\|, \\: \\forall n \\in\n\\mathbb{N}.$$ Using the family of transfer operators defined in this setting by\nPark and Piraino, for all $t<0$ sufficiently close to 0 we prove the existence\nof Gibbs-type measures for the superadditive sequences of potentials $\\Phi_t$.\nThis extends the results of the well-understood subadditive case where $t \\geq\n0$. Prior to this, Gibbs-type measures were only known to exist for $t<0$ in\nthe conformal, the reducible, the positive, or the dominated, planar settings,\nin which case they are Gibbs measures in the classical sense. We further prove\nthat the topological pressure function $t \\mapsto\nP_{\\mathrm{top}}(\\Phi_t,\\sigma)$ is analytic in an open neighbourhood of 0 and\nhas derivative given by the Lyapunov exponents of these Gibbs-type measures. In\naddition, we give an example in this setting for which there does not exist\nGibbs-type measures for $\\Phi_t$ for some values of $t<0$. This is the first\nexample of this phenomenon outside of the reducible setting.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 12:59:54 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Rush","Tom",""]]}
+{"id":"2308.16695","submitter":"R\\'emi Leclercq","authors":"Jean-Philippe Chass\\'e and R\\'emi Leclercq","title":"A H\\\"older-type inequality for the Hausdorff distance between\n Lagrangians","comments":"13 pages, 0 figure, comments welcome","journal-ref":null,"doi":null,"report-no":null,"categories":"math.SG math.DG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We prove a H\\\"older-type inequality (in the spirit of\nJoksimovi\\'c--Seyfaddini [arXiv.org:2207.11813] for the Hausdorff distance\nbetween Lagrangians with respect to the Lagrangian spectral distance or the\nHofer--Chekanov distance. This inequality is established via methods developped\nby the first author [arXiv:2204.02468, arXiv:2108.00555] in order to understand\nthe symplectic geometry of certain collections of Lagrangians under metric\nconstraints.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:00:17 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Chass\u00e9","Jean-Philippe",""],["Leclercq","R\u00e9mi",""]]}
+{"id":"2308.16696","submitter":"Xinjie Dai","authors":"Xinjie Dai, Jialin Hong, and Derui Sheng","title":"Error analysis of numerical methods on graded meshes for stochastic\n Volterra equations","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.NA cs.NA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This paper presents the error analysis of numerical methods on graded meshes\nfor stochastic Volterra equations with weakly singular kernels. We first prove\na novel regularity estimate for the exact solution via analyzing the associated\nconvolution structure. This reveals that the exact solution exhibits an initial\nsingularity in the sense that its H\\\"older continuous exponent on any\nneighborhood of $t=0$ is lower than that on every compact subset of $(0,T]$.\nMotivated by the initial singularity, we then construct the Euler--Maruyama\nmethod, fast Euler--Maruyama method, and Milstein method based on graded\nmeshes. By establishing their pointwise-in-time error estimates, we give the\ngrading exponents of meshes to attain the optimal uniform-in-time convergence\norders, where the convergence orders improve those of the uniform mesh case.\nNumerical experiments are finally reported to confirm the sharpness of\ntheoretical findings.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:00:34 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Dai","Xinjie",""],["Hong","Jialin",""],["Sheng","Derui",""]]}
+{"id":"2308.16697","submitter":"Leonardo Pacheco","authors":"Leonardo Pacheco","title":"Game semantics for the constructive $\\mu$-calculus","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.LO cs.LO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We define game semantics for the constructive $\\mu$-calculus and prove its\ncorrectness. We use these game semantics to prove that the $\\mu$-calculus\ncollapses to modal logic over $\\mathsf{CS5}$ frames. Finally, we prove the\ncompleteness of $\\mathsf{\\mu CS5}$ over $\\mathsf{CS5}$ frames.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:02:30 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Pacheco","Leonardo",""]]}
+{"id":"2308.16698","submitter":"Julius Karlapp","authors":"Julius Karlapp (1), Ren\\'e Heller (2), Martin Tajmar (1) ((1)\n Institute of Aerospace Engineering, Technische Universit\\\"at Dresden (GER),\n (2) Max Planck Institute for Solar System Research, G\\\"ottingen (GER))","title":"Ultrafast transfer of low-mass payloads to Mars and beyond using\n aerographite solar sails","comments":"submitted to Acta Astronautica, Special Issue for the 8th\n Interstellar Symposium 2023, 8 pages, 10 Figures (5 col, 5 b/w), 1 Table","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.IM astro-ph.EP","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" With interstellar mission concepts now being under study by various space\nagencies and institutions, a feasible and worthy interstellar precursor mission\nconcept will be key to the success of the long shot. Here we investigate\ninterstellar-bound trajectories of solar sails made of the ultra-light material\naerographite, known for its low density (0.18 kg m$^{-3}$) and high\nabsorptivity ($\\mathcal{A}{\\sim}1$), enabling remarkable solar\nirradiation-based acceleration. Payloads of up to 1 kg can swiftly traverse the\nsolar system and the regions beyond. Our simulations consider various launch\nscenarios from a polar orbit around the Earth with direct outbound trajectories\nand Sun diver launches with subsequent outward acceleration. Utilizing the\npoliastro Python library, we calculate positions, velocities, and accelerations\nfor a 1 kg spacecraft (including 720 g aerographite mass) with 10$^4$ m$^2$ of\ncross-sectional area, corresponding to a 56 m radius. A direct outward Mars\ntransfer yields 65 km s$^{-1}$ in 26 d. The inward Mars transfer, with a sail\ndeployment at a minimum distance of 0.6 AU, achieves 118 km s$^{-1}$ in 126 d.\nTransfer times and velocities vary due to the Earth-Mars constellation and\ninitial injection trajectory. The direct interstellar trajectory peaks at 109\nkm s$^{-1}$, reaching interstellar space in 5.3 yr defined by the heliopause at\n120 AU. Alternatively, the initial Sun dive to 0.6 AU provides 148 km s$^{-1}$\nof escape velocity, reaching the heliopause in 4.2 yr. Values differ based on\nthe minimum distance to the Sun. Presented concepts enable swift Mars flybys\nand interstellar space exploration. For delivery missions of sub-kg payloads,\nthe deceleration remains a challenge.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:02:39 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Karlapp","Julius",""],["Heller","Ren\u00e9",""],["Tajmar","Martin",""]]}
+{"id":"2308.16699","submitter":"Federica Bradascio Dr.","authors":"Federica Bradascio, Halim Ashkar, Jowita Borowska, Jean Damascene\n Mbarubucyeye, Enzo Oukacha, Fabian Sch\\\"ussler, Hiromasa Suzuki, Alicja\n Wierzcholska (for the H.E.S.S. and IceCube Collaborations)","title":"H.E.S.S. realtime follow-ups of IceCube high-energy neutrino alerts","comments":"Presented at the 38th International Cosmic Ray Conference (ICRC2023).\n See arXiv:2307.13047 for all IceCube contributions","journal-ref":null,"doi":null,"report-no":"PoS-ICRC2023-1546","categories":"astro-ph.HE","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The evidence for multi-messenger photon and neutrino emission from the blazar\nTXS 0506+056 has demonstrated the importance of realtime follow-up of neutrino\nevents by various ground- and space-based facilities. The effort of H.E.S.S.\nand other experiments in coordinating observations to obtain quasi-simultaneous\nmultiwavelength flux and spectrum measurements has been critical in measuring\nthe chance coincidence with the high-energy neutrino event IC-170922A and\nconstraining theoretical models. For about a decade, the H.E.S.S. transient\nprogram has included a search for gamma-ray emission associated with\nhigh-energy neutrino alerts, looking for gamma-ray activity from known sources\nand newly detected emitters consistent with the neutrino location. In this\ncontribution, we present an overview of follow-up activities for realtime\nneutrino alerts with H.E.S.S. in 2021 and 2022. Our analysis includes both\npublic IceCube neutrino alerts and alerts exchanged as part of a joint\nH.E.S.S.-IceCube program. We focus on interesting coincidences observed with\ngamma-ray sources, particularly highlighting the significant detection of PKS\n0625-35, an AGN previously detected by H.E.S.S., and three IceCube neutrinos.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:03:58 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Bradascio","Federica","","for the H.E.S.S. and IceCube Collaborations"],["Ashkar","Halim","","for the H.E.S.S. and IceCube Collaborations"],["Borowska","Jowita","","for the H.E.S.S. and IceCube Collaborations"],["Mbarubucyeye","Jean Damascene","","for the H.E.S.S. and IceCube Collaborations"],["Oukacha","Enzo","","for the H.E.S.S. and IceCube Collaborations"],["Sch\u00fcssler","Fabian","","for the H.E.S.S. and IceCube Collaborations"],["Suzuki","Hiromasa","","for the H.E.S.S. and IceCube Collaborations"],["Wierzcholska","Alicja","","for the H.E.S.S. and IceCube Collaborations"]]}
+{"id":"2308.16700","submitter":"Rasmus Carl R{\\o}nneberg","authors":"Rasmus C. R{\\o}nneberg, Ra\\'ul Pardo, Andrzej W\\k{a}sowski","title":"Exact and Efficient Bayesian Inference for Privacy Risk Quantification\n (Extended Version)","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Data analysis has high value both for commercial and research purposes.\nHowever, disclosing analysis results may pose severe privacy risk to\nindividuals. Privug is a method to quantify privacy risks of data analytics\nprograms by analyzing their source code. The method uses probability\ndistributions to model attacker knowledge and Bayesian inference to update said\nknowledge based on observable outputs. Currently, Privug uses Markov Chain\nMonte Carlo (MCMC) to perform inference, which is a flexible but approximate\nsolution. This paper presents an exact Bayesian inference engine based on\nmultivariate Gaussian distributions to accurately and efficiently quantify\nprivacy risks. The inference engine is implemented for a subset of Python\nprograms that can be modeled as multivariate Gaussian models. We evaluate the\nmethod by analyzing privacy risks in programs to release public statistics. The\nevaluation shows that our method accurately and efficiently analyzes privacy\nrisks, and outperforms existing methods. Furthermore, we demonstrate the use of\nour engine to analyze the effect of differential privacy in public statistics.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:04:04 GMT"}],"update_date":"2023-09-01","authors_parsed":[["R\u00f8nneberg","Rasmus C.",""],["Pardo","Ra\u00fal",""],["W\u0105sowski","Andrzej",""]]}
+{"id":"2308.16701","submitter":"Alek Vainshtein","authors":"Misha Gekhtman, Michael Shapiro, and Alek Vainshtein","title":"A unified approach to exotic cluster structures on simple Lie groups","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.QA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We propose a new approach to building log-canonical coordinate charts for any\nsimply-connected simple Lie group $\\G$ and arbitrary Poisson-homogeneous\nbracket on $\\G$ associated with Belavin--Drinfeld data. Given a pair of\nrepresentatives $r, r'$ from two arbitrary Belavin--Drinfeld classes, we build\na rational map from $\\G$ with the Poisson structure defined by two\nappropriately selected representatives from the standard class to $\\G$ equipped\nwith the Poisson structure defined by the pair $r, r'$. In the $A_n$ case, we\nprove that this map is invertible whenever the pair $r, r'$ is drawn from\naperiodic Belavin--Drinfeld data, as defined in~\\cite{GSVple}. We further apply\nthis construction to recover the existence of a regular complete cluster\nstructure compatible with the Poisson structure associated with the pair $r,\nr'$ in the aperiodic case.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:07:43 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Gekhtman","Misha",""],["Shapiro","Michael",""],["Vainshtein","Alek",""]]}
+{"id":"2308.16702","submitter":"Wade Bloomquist","authors":"Wade Bloomquist, Hiroaki Karuo, Thang L\\^e","title":"Degenerations Of Skein Algebras And Quantum Traces","comments":"56 pages, 20 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"math.GT math.QA","license":"http://creativecommons.org/publicdomain/zero/1.0/","abstract":" We introduce a joint generalization, called LRY skein algebras, of Kauffman\nbracket skein algebras (of surfaces) that encompasses both Roger-Yang skein\nalgebras and stated skein algebras. We will show that, over an arbitrary ground\nring which is a commutative domain, the LRY skein algebras are domains and have\ndegenerations (by filtrations) equal to monomial subalgebras of quantum tori.\nThis integrality answers a question of Roger-Yang for the most general ground\nring. We also calculate the Gelfand-Kirillov dimension of LRY algebras and show\nthey are Noetherian if the ground ring is. Moreover they are orderly finitely\ngenerated. To study the LRY algebras and prove the above-mentioned results, we\nconstruct quantum traces, both the so-called X-version for all surfaces and\nalso an A-version for a smaller class of surfaces. We also introduce a modified\nversion of Dehn-Thurston coordinates for curves which are more suitable for the\nstudy of skein algebras as they pick up the highest degree terms of products in\ncertain natural filtrations.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:08:15 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Bloomquist","Wade",""],["Karuo","Hiroaki",""],["L\u00ea","Thang",""]]}
+{"id":"2308.16703","submitter":"Pierre-Alain Mo\\\"ellic","authors":"Kevin Hector, Pierre-Alain Moellic, Mathieu Dumont, Jean-Max Dutertre","title":"Fault Injection and Safe-Error Attack for Extraction of Embedded Neural\n Network Models","comments":"Accepted at SECAI Workshop, ESORICS 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CR cs.AI","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Model extraction emerges as a critical security threat with attack vectors\nexploiting both algorithmic and implementation-based approaches. The main goal\nof an attacker is to steal as much information as possible about a protected\nvictim model, so that he can mimic it with a substitute model, even with a\nlimited access to similar training data. Recently, physical attacks such as\nfault injection have shown worrying efficiency against the integrity and\nconfidentiality of embedded models. We focus on embedded deep neural network\nmodels on 32-bit microcontrollers, a widespread family of hardware platforms in\nIoT, and the use of a standard fault injection strategy - Safe Error Attack\n(SEA) - to perform a model extraction attack with an adversary having a limited\naccess to training data. Since the attack strongly depends on the input\nqueries, we propose a black-box approach to craft a successful attack set. For\na classical convolutional neural network, we successfully recover at least 90%\nof the most significant bits with about 1500 crafted inputs. These information\nenable to efficiently train a substitute model, with only 8% of the training\ndataset, that reaches high fidelity and near identical accuracy level than the\nvictim model.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:09:33 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Hector","Kevin",""],["Moellic","Pierre-Alain",""],["Dumont","Mathieu",""],["Dutertre","Jean-Max",""]]}
+{"id":"2308.16704","submitter":"ALICE Publications","authors":"ALICE Collaboration","title":"Dielectron production in central Pb$-$Pb collisions at\n $\\sqrt{s_\\mathrm{NN}}$ = 5.02 TeV","comments":"38 pages, 12 captioned figures, 1 table, authors from page 32,\n submitted to PRC, figures at http://alice-publications.web.cern.ch/node/9679","journal-ref":null,"doi":null,"report-no":"CERN-EP-2023-194","categories":"nucl-ex hep-ex","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The first measurement of the e$^+$e$^-$ pair production at midrapidity and\nlow invariant mass in central Pb$-$Pb collisions at\n$\\sqrt{s_{\\mathrm{NN}}}=5.02$ TeV at the LHC is presented. The yield of\ne$^+$e$^-$ pairs is compared with a cocktail of expected hadronic decay\ncontributions in the invariant mass ($m_{\\rm ee}$) and pair transverse momentum\n($p_{\\rm T,ee}$) ranges $m_{\\rm ee} < 3.5$ GeV$/c^2$ and $p_{\\rm T,ee} < 8$\nGeV$/c$. For $0.18 < m_{\\rm ee} < 0.5$ GeV$/c^2$ the ratio of data to the\ncocktail of hadronic contributions without $\\rho$ mesons amounts to $1.42 \\pm\n0.12 \\ ({\\rm stat.}) \\pm 0.17 \\ ({\\rm syst.}) \\pm 0.12 \\ ({\\rm cocktail})$ and\n$1.44 \\pm 0.12 \\ ({\\rm stat.}) \\pm 0.17 \\ ({\\rm syst.}) ^{+0.17}_{-0.21} \\\n({\\rm cocktail})$, including or not including medium effects in the estimation\nof the heavy-flavor background, respectively. It is consistent with predictions\nfrom two different models for an additional contribution of thermal e$^+$e$^-$\npairs from the hadronic and partonic phases. In the intermediate-mass range\n($1.2 < m_{\\rm ee} < 2.6$ GeV$/c^2$), the pair transverse impact parameter of\nthe e$^+$e$^-$ pairs (DCA$_{\\rm ee}$) is used for the first time in Pb$-$Pb\ncollisions to separate displaced dielectrons from heavy-flavor hadron decays\nfrom a possible (thermal) contribution produced at the interaction point. The\ndata are consistent with a suppression of e$^+$e$^-$ pairs from ${\\rm\nc\\overline{c}}$ and an additional prompt component. Finally, the first\ndirect-photon measurement in the 10% most central Pb$-$Pb collisions at\n$\\sqrt{s_{\\mathrm{NN}}}=5.02$ TeV is reported via the study of virtual direct\nphotons in the transverse momentum range $1 < p_{\\rm T} < 5$ GeV$/c$. A model\nincluding prompt photons, as well as photons from the pre-equilibrium and\nfluid-dynamic phases, can reproduce the result, while being at the upper edge\nof the data uncertainties.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:13:42 GMT"}],"update_date":"2023-09-01","authors_parsed":[["ALICE Collaboration","",""]]}
+{"id":"2308.16705","submitter":"Nayeon Lee","authors":"Nayeon Lee, Chani Jung, Junho Myung, Jiho Jin, Juho Kim, Alice Oh","title":"CReHate: Cross-cultural Re-annotation of English Hate Speech Dataset","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL cs.AI","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" English datasets predominantly reflect the perspectives of certain\nnationalities, which can lead to cultural biases in models and datasets. This\nis particularly problematic in tasks heavily influenced by subjectivity, such\nas hate speech detection. To delve into how individuals from different\ncountries perceive hate speech, we introduce CReHate, a cross-cultural\nre-annotation of the sampled SBIC dataset. This dataset includes annotations\nfrom five distinct countries: Australia, Singapore, South Africa, the United\nKingdom, and the United States. Our thorough statistical analysis highlights\nsignificant differences based on nationality, with only 59.4% of the samples\nachieving consensus among all countries. We also introduce a culturally\nsensitive hate speech classifier via transfer learning, adept at capturing\nperspectives of different nationalities. These findings underscore the need to\nre-evaluate certain aspects of NLP research, especially with regard to the\nnuanced nature of hate speech in the English language.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:14:47 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Lee","Nayeon",""],["Jung","Chani",""],["Myung","Junho",""],["Jin","Jiho",""],["Kim","Juho",""],["Oh","Alice",""]]}
+{"id":"2308.16706","submitter":"ALICE Publications","authors":"ALICE Collaboration","title":"Studying strangeness and baryon production mechanisms through angular\n correlations between charged $\\Xi$ baryons and identified hadrons in pp\n collisions at $\\sqrt{s}$ = 13 TeV","comments":"37 pages, 14 captioned figures, 3 tables, authors from page 31,\n submitted to JHEP, figures at http://alice-publications.web.cern.ch/node/9678","journal-ref":null,"doi":null,"report-no":"CERN-EP-2023-198","categories":"hep-ex nucl-ex","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The angular correlations between charged $\\Xi$ baryons and associated\nidentified hadrons (pions, kaons, protons, $\\Lambda$ baryons, and $\\Xi$\nbaryons) are measured in pp collisions at $\\sqrt{s} = 13$ TeV with the ALICE\ndetector to give insight into the particle production mechanisms and balancing\nof quantum numbers on the microscopic level. In particular, the distribution of\nstrangeness is investigated in the correlations between the doubly-strange\n$\\Xi$ baryon and mesons and baryons that contain a single strange quark, K and\n$\\Lambda$. As a reference, the results are compared to $\\Xi\\pi$ and\n$\\Xi\\mathrm{p}$ correlations, where the associated mesons and baryons do not\ncontain a strange valence quark. These measurements are expected to be\nsensitive to whether strangeness is produced through string breaking or in a\nthermal production scenario. Furthermore, the multiplicity dependence of the\ncorrelation functions is measured to look for the turn-on of additional\nparticle production mechanisms with event activity. The results are compared to\npredictions from the string-breaking model PYTHIA 8, including tunes with\nbaryon junctions and rope hadronisation enabled, the cluster hadronisation\nmodel HERWIG 7, and the core-corona model EPOS-LHC. While some aspects of the\nexperimental data are described quantitatively or qualitatively by the Monte\nCarlo models, no one model can match all features of the data. These results\nprovide stringent constraints on the strangeness and baryon number production\nmechanisms in pp collisions.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:16:05 GMT"}],"update_date":"2023-09-01","authors_parsed":[["ALICE Collaboration","",""]]}
+{"id":"2308.16707","submitter":"Hugo Roger Paz Prof.","authors":"Hugo Roger Paz","title":"Causal Analysis of First-Year Course Approval Delays in an Engineering\n Major Through Inference Techniques","comments":"15 pages, 5 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CY","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The study addresses the problem of delays in the approval of first-year\ncourses in the Civil Engineering Major at the National University of Tucum\\'an,\nArgentina. Students take an average of 5 years to pass these subjects. Using\nthe DoWhy and Causal Discovery Toolbox tools, we looked to identify the\nunderlying causes of these delays. The analysis revealed that the regulatory\nstructure of the program and the evaluation methods play a crucial role in this\ndelay. Specifically, the accumulation of regular subjects without passing a\nfinal exam was identified as a key factor. These findings can guide\ninterventions to improve student success rates and the effectiveness of the\neducation system in general.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:17:51 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Paz","Hugo Roger",""]]}
+{"id":"2308.16708","submitter":"Sebastian Lubos","authors":"Sebastian Lubos, Thi Ngoc Trang Tran, Seda Polat Erdeniz, Merfat El\n Mansi, Alexander Felfernig, Manfred Wundara and Gerhard Leitner","title":"Concentrating on the Impact: Consequence-based Explanations in\n Recommender Systems","comments":"Preprint of the paper to be presented at IntRS'23: Joint Workshop on\n Interfaces and Human Decision Making for Recommender Systems, September 18,\n 2023, Singapore. paper will be published in the workshop proceedings","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IR cs.HC","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Recommender systems assist users in decision-making, where the presentation\nof recommended items and their explanations are critical factors for enhancing\nthe overall user experience. Although various methods for generating\nexplanations have been proposed, there is still room for improvement,\nparticularly for users who lack expertise in a specific item domain. In this\nstudy, we introduce the novel concept of \\textit{consequence-based\nexplanations}, a type of explanation that emphasizes the individual impact of\nconsuming a recommended item on the user, which makes the effect of following\nrecommendations clearer. We conducted an online user study to examine our\nassumption about the appreciation of consequence-based explanations and their\nimpacts on different explanation aims in recommender systems. Our findings\nhighlight the importance of consequence-based explanations, which were\nwell-received by users and effectively improved user satisfaction in\nrecommender systems. These results provide valuable insights for designing\nengaging explanations that can enhance the overall user experience in\ndecision-making.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:24:57 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Lubos","Sebastian",""],["Tran","Thi Ngoc Trang",""],["Erdeniz","Seda Polat",""],["Mansi","Merfat El",""],["Felfernig","Alexander",""],["Wundara","Manfred",""],["Leitner","Gerhard",""]]}
+{"id":"2308.16709","submitter":"Pierre Le Doussal","authors":"Pierre Le Doussal","title":"Dynamics at the edge for independent diffusing particles","comments":"44 pages, 8 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.stat-mech math.PR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We study the dynamics of the outliers for a large number of independent\nBrownian particles in one dimension. We derive the multi-time joint\ndistribution of the position of the rightmost particle, by two different\nmethods. We obtain the two time joint distribution of the maximum and second\nmaximum positions, and study the counting statistics at the edge. Finally we\nderive the multi-time joint distribution of the running maximum, as well as the\njoint distribution of the arrival time of the first particle at several space\npoints.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:25:01 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Doussal","Pierre Le",""]]}
+{"id":"2308.16710","submitter":"Kyle Knoepfel","authors":"Kyle J. Knoepfel","title":"Meld: Exploring the Feasibility of a Framework-less Framework","comments":"8 pages, 5 figures, 1 table, To be published in Proceedings of CHEP23","journal-ref":null,"doi":null,"report-no":"FERMILAB-CONF-23-465-CSAID","categories":"cs.DC physics.comp-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" HEP data-processing frameworks are essential ingredients in getting from raw\ndata to physics results. But they are often tricky to use well, and they\npresent a significant learning barrier for the beginning HEP physicist. In\naddition, existing frameworks typically support rigid, collider-based data\nmodels, which do not map well to neutrino-physics experiments like DUNE.\nNeutrino physicists thus expend significant effort working around framework\nlimitations instead of using a framework that directly supports their needs.\n Presented here is Meld, a Fermilab R&D project, which intends to address\nthese limitations. By leveraging modern C++ capabilities, state-of-the-art\nconcurrency libraries, and a flexible data model, it is possible for beginning\n(and seasoned) HEP physicists to execute framework programs easily and\nefficiently, with minimal coupling to framework-specific constructs. Meld aims\nto directly support the frameworks needs of neutrino experiments like DUNE as\nwell as the more common collider-based experiments.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:25:13 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Knoepfel","Kyle J.",""]]}
+{"id":"2308.16711","submitter":"Stefan Weltge","authors":"Jamico Schade, Makrand Sinha, Stefan Weltge","title":"Lower Bounds on the Complexity of Mixed-Integer Programs for Stable Set\n and Knapsack","comments":"35 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DM cs.DS math.OC","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Standard mixed-integer programming formulations for the stable set problem on\n$n$-node graphs require $n$ integer variables. We prove that this is almost\noptimal: We give a family of $n$-node graphs for which every polynomial-size\nMIP formulation requires $\\Omega(n/\\log^2 n)$ integer variables. By a\npolyhedral reduction we obtain an analogous result for $n$-item knapsack\nproblems. In both cases, this improves the previously known bounds of\n$\\Omega(\\sqrt{n}/\\log n)$ by Cevallos, Weltge & Zenklusen (SODA 2018).\n To this end, we show that there exists a family of $n$-node graphs whose\nstable set polytopes satisfy the following: any $(1+\\varepsilon/n)$-approximate\nextended formulation for these polytopes, for some constant $\\varepsilon > 0$,\nhas size $2^{\\Omega(n/\\log n)}$. Our proof extends and simplifies the\ninformation-theoretic methods due to G\\\"o\\\"os, Jain & Watson (FOCS 2016, SIAM\nJ. Comput. 2018) who showed the same result for the case of exact extended\nformulations (i.e. $\\varepsilon = 0$).\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:25:13 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Schade","Jamico",""],["Sinha","Makrand",""],["Weltge","Stefan",""]]}
+{"id":"2308.16712","submitter":"Tom Westerhout","authors":"Tom Westerhout and Bradford L. Chamberlain","title":"Implementing scalable matrix-vector products for the exact\n diagonalization methods in quantum many-body physics","comments":"11 pages, 9 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.comp-ph cs.DC","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Exact diagonalization is a well-established method for simulating small\nquantum systems. Its applicability is limited by the exponential growth of the\nso-called Hamiltonian matrix that needs to be diagonalized. Physical symmetries\nare usually utilized to reduce the matrix dimension, and distributed-memory\nparallelism is employed to explore larger systems. This paper focuses on the\nimplementation the core distributed algorithms, with a special emphasis on the\nmatrix-vector product operation. Instead of the conventional MPI+X paradigm,\nChapel is chosen as the language for these distributed algorithms.\n We provide a comprehensive description of the algorithms and present\nperformance and scalability tests. Our implementation outperforms the\nstate-of-the-art MPI-based solution by a factor of 7--8 on 32 compute nodes or\n4096 cores and exhibits very good scaling on up to 256 nodes or 32768 cores.\nThe implementation has 3 times fewer software lines of code than the current\nstate of the art while remaining fully generic.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:26:38 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Westerhout","Tom",""],["Chamberlain","Bradford L.",""]]}
+{"id":"2308.16713","submitter":"Sheng Xu","authors":"Hongtai Jing, Zhengtao Gao, Sheng Xu, Tao Shen, Zhangzhi Peng, Shwai\n He, Tao You, Shuang Ye, Wei Lin, Siqi Sun","title":"Accurate Prediction of Antibody Function and Structure Using\n Bio-Inspired Antibody Language Model","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"q-bio.BM","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In recent decades, antibodies have emerged as indispensable therapeutics for\ncombating diseases, particularly viral infections. However, their development\nhas been hindered by limited structural information and labor-intensive\nengineering processes. Fortunately, significant advancements in deep learning\nmethods have facilitated the precise prediction of protein structure and\nfunction by leveraging co-evolution information from homologous proteins.\nDespite these advances, predicting the conformation of antibodies remains\nchallenging due to their unique evolution and the high flexibility of their\nantigen-binding regions. Here, to address this challenge, we present the\nBio-inspired Antibody Language Model (BALM). This model is trained on a vast\ndataset comprising 336 million 40% non-redundant unlabeled antibody sequences,\ncapturing both unique and conserved properties specific to antibodies. Notably,\nBALM showcases exceptional performance across four antigen-binding prediction\ntasks. Moreover, we introduce BALMFold, an end-to-end method derived from BALM,\ncapable of swiftly predicting full atomic antibody structures from individual\nsequences. Remarkably, BALMFold outperforms those well-established methods like\nAlphaFold2, IgFold, ESMFold, and OmegaFold in the antibody benchmark,\ndemonstrating significant potential to advance innovative engineering and\nstreamline therapeutic antibody development by reducing the need for\nunnecessary trials.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:26:41 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Jing","Hongtai",""],["Gao","Zhengtao",""],["Xu","Sheng",""],["Shen","Tao",""],["Peng","Zhangzhi",""],["He","Shwai",""],["You","Tao",""],["Ye","Shuang",""],["Lin","Wei",""],["Sun","Siqi",""]]}
+{"id":"2308.16714","submitter":"Chen Gao","authors":"Si Liu, Chen Gao, Yuan Chen, Xingyu Peng, Xianghao Kong, Kun Wang,\n Runsheng Xu, Wentao Jiang, Hao Xiang, Jiaqi Ma, Miao Wang","title":"Towards Vehicle-to-everything Autonomous Driving: A Survey on\n Collaborative Perception","comments":"19 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Vehicle-to-everything (V2X) autonomous driving opens up a promising direction\nfor developing a new generation of intelligent transportation systems.\nCollaborative perception (CP) as an essential component to achieve V2X can\novercome the inherent limitations of individual perception, including occlusion\nand long-range perception. In this survey, we provide a comprehensive review of\nCP methods for V2X scenarios, bringing a profound and in-depth understanding to\nthe community. Specifically, we first introduce the architecture and workflow\nof typical V2X systems, which affords a broader perspective to understand the\nentire V2X system and the role of CP within it. Then, we thoroughly summarize\nand analyze existing V2X perception datasets and CP methods. Particularly, we\nintroduce numerous CP methods from various crucial perspectives, including\ncollaboration stages, roadside sensors placement, latency compensation,\nperformance-bandwidth trade-off, attack/defense, pose alignment, etc. Moreover,\nwe conduct extensive experimental analyses to compare and examine current CP\nmethods, revealing some essential and unexplored insights. Specifically, we\nanalyze the performance changes of different methods under different\nbandwidths, providing a deep insight into the performance-bandwidth trade-off\nissue. Also, we examine methods under different LiDAR ranges. To study the\nmodel robustness, we further investigate the effects of various simulated\nreal-world noises on the performance of different CP methods, covering\ncommunication latency, lossy communication, localization errors, and mixed\nnoises. In addition, we look into the sim-to-real generalization ability of\nexisting CP methods. At last, we thoroughly discuss issues and challenges,\nhighlighting promising directions for future efforts. Our codes for\nexperimental analysis will be public at\nhttps://github.com/memberRE/Collaborative-Perception.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:28:32 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Liu","Si",""],["Gao","Chen",""],["Chen","Yuan",""],["Peng","Xingyu",""],["Kong","Xianghao",""],["Wang","Kun",""],["Xu","Runsheng",""],["Jiang","Wentao",""],["Xiang","Hao",""],["Ma","Jiaqi",""],["Wang","Miao",""]]}
+{"id":"2308.16715","submitter":"Marco Saldutti","authors":"Marco Saldutti, Yi Yu, George Kountouris, Philip Tr{\\o}st Kristensen\n and Jesper M{\\o}rk","title":"Carrier diffusion in semiconductor nanoscale resonators","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.optics physics.comp-ph","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" It is shown that semiconductor nanoscale resonators with extreme dielectric\nconfinement accelerate the diffusion of electron-hole pairs excited by\nnonlinear absorption. These novel cavity designs may lead to optical switches\nwith superior modulation speeds compared to conventional geometries. The\nresponse function of the effective carrier density is computed by an efficient\neigenmode expansion technique. A few eigenmodes of the diffusion equation\nconveniently capture the long-timescale carrier decay rate, which is\nadvantageous compared to time-domain simulations. Notably, the eigenmode\napproach elucidates the contribution to carrier diffusion of the in-plane and\nout-of-plane cavity geometry, which may guide future designs.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:28:58 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Saldutti","Marco",""],["Yu","Yi",""],["Kountouris","George",""],["Kristensen","Philip Tr\u00f8st",""],["M\u00f8rk","Jesper",""]]}
+{"id":"2308.16716","submitter":"Christopher Schwan","authors":"Stefan Dittmaier, Philipp Maierh\\\"ofer, Christopher Schwan, Ramon\n Winterhalder","title":"Like-Sign W-Boson Scattering at the LHC -- Approximations and Full\n Next-to-Leading-Order Predictions","comments":"57 pages, 70 figures","journal-ref":null,"doi":null,"report-no":"FR-PHENO-2023-09, IRMP-CP3-23-42","categories":"hep-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We present a new calculation of next-to-leading-order corrections of the\nstrong and electroweak interactions to like-sign W-boson scattering at the\nLarge Hadron Collider, implemented in the Monte Carlo integrator Bonsay. The\ncalculation includes leptonic decays of the $\\mathrm{W}$ bosons. It comprises\nthe whole tower of next-to-leading-order contributions to the cross section,\nwhich scale like $\\alpha_\\mathrm{s}^3\\alpha^4$, $\\alpha_\\mathrm{s}^2\\alpha^5$,\n$\\alpha_\\mathrm{s}\\alpha^6$, and $\\alpha^7$ in the strong and electroweak\ncouplings $\\alpha_\\mathrm{s}$ and $\\alpha$. We present a detailed survey of\nnumerical results confirming the occurrence of large pure electroweak\ncorrections of the order of $\\sim-12\\%$ for integrated cross sections and even\nlarger corrections in high-energy tails of distributions. The electroweak\ncorrections account for the major part of the complete next-to-leading-order\ncorrection, which amounts to $15{-}20\\%$ in size, depending on the details of\nthe event selection chosen for analysing vector-boson-scattering. Moreover, we\ncompare the full next-to-leading-order corrections to approximate results based\non the neglect of contributions that are not enhanced by the vector-boson\nscattering kinematics (VBS approximation) and on resonance expansions for the\n$\\mathrm{W}$-boson decays (double-pole approximation); the quality of this\napproximation is good within $\\sim 1.5\\%$ for integrated cross sections and the\ndominating parts of the differential distributions. Finally, for the\nleading-order predictions, we construct different versions of effective\nvector-boson approximations, which are based on cross-section contributions\nthat are enhanced by collinear emission of $\\mathrm{W}$ bosons off the\ninitial-state (anti)quarks; in line with previous findings in the literature,\nit turns out that the approximative quality is rather limited for applications\nat the LHC.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:32:52 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Dittmaier","Stefan",""],["Maierh\u00f6fer","Philipp",""],["Schwan","Christopher",""],["Winterhalder","Ramon",""]]}
+{"id":"2308.16717","submitter":"Tina Wach","authors":"T. Wach, A. M. W. Mitchell, V. Joshi, S. Funk (for the H.E.S.S.\n collaboration)","title":"Joint H.E.S.S. and Fermi-LAT analysis of the region around PSR\n J1813-1749","comments":"8 pages, 4 figures, 1 table, In proceedings of ICRC2023","journal-ref":"Proceedings of the 38th International Cosmic Ray Conference,\n PoS(ICRC2023)589","doi":null,"report-no":null,"categories":"astro-ph.HE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" HESS J1813-178 is one of the brightest sources detected during the first HESS\nGalactic Plane survey. The compact source, also detected by MAGIC, is believed\nto be a pulsar wind nebula powered by one of the most powerful pulsars known in\nthe Galaxy, PSR J1813-1749 with a spin-down luminosity of $\\dot{\\mathrm{E}} =\n5.6 \\cdot 10^{37}\\,\\mathrm{erg}\\,\\mathrm{s}^{-1}$. With its extreme physical\nproperties, as well as the pulsar's young age of 5.6 kyrs, the $\\gamma$-rays\ndetected in this region allow us to study the evolution of a highly atypical\nsystem. Previous studies of the region in the GeV energy range show emission\nextended beyond the size of the compact H.E.S.S. source. Using the archival\nH.E.S.S. data with improved background methods, we perform a detailed\nmorphological and spectral analysis of the region. Additionally to the compact,\nbright emission component, we find significantly extended emission, whose\nposition is coincident with HESS J1813-178. We reanalyse the region in GeV and\nderive a joint-model in order to find a continuous description of the emission\nin the region from GeV to TeV. Using the results derived in this analysis, as\nwell as X-ray and radio data of the region, we perform multi-wavelength\nspectral modeling. Possible hadronic or leptonic origins of the $\\gamma$-ray\nemission are investigated, and the diffusion parameters necessary to explain\nthe extended emission are examined.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:33:04 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Wach","T.","","for the H.E.S.S.\n collaboration"],["Mitchell","A. M. W.","","for the H.E.S.S.\n collaboration"],["Joshi","V.","","for the H.E.S.S.\n collaboration"],["Funk","S.","","for the H.E.S.S.\n collaboration"]]}
+{"id":"2308.16718","submitter":"Yu Shi","authors":"Yu Shi, Dong-Dong Wu, Xin Geng, Min-Ling Zhang","title":"Robust Representation Learning for Unreliable Partial Label Learning","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Partial Label Learning (PLL) is a type of weakly supervised learning where\neach training instance is assigned a set of candidate labels, but only one\nlabel is the ground-truth. However, this idealistic assumption may not always\nhold due to potential annotation inaccuracies, meaning the ground-truth may not\nbe present in the candidate label set. This is known as Unreliable Partial\nLabel Learning (UPLL) that introduces an additional complexity due to the\ninherent unreliability and ambiguity of partial labels, often resulting in a\nsub-optimal performance with existing methods. To address this challenge, we\npropose the Unreliability-Robust Representation Learning framework (URRL) that\nleverages unreliability-robust contrastive learning to help the model fortify\nagainst unreliable partial labels effectively. Concurrently, we propose a dual\nstrategy that combines KNN-based candidate label set correction and\nconsistency-regularization-based label disambiguation to refine label quality\nand enhance the ability of representation learning within the URRL framework.\nExtensive experiments demonstrate that the proposed method outperforms\nstate-of-the-art PLL methods on various datasets with diverse degrees of\nunreliability and ambiguity. Furthermore, we provide a theoretical analysis of\nour approach from the perspective of the expectation maximization (EM)\nalgorithm. Upon acceptance, we pledge to make the code publicly accessible.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:37:28 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Shi","Yu",""],["Wu","Dong-Dong",""],["Geng","Xin",""],["Zhang","Min-Ling",""]]}
+{"id":"2308.16719","submitter":"Sharvari N P","authors":"Sharvari N P, Dibakar Das, Jyotsna Bapat and Debabrata Das","title":"Energy Efficient UAV-Assisted Emergency Communication with Reliable\n Connectivity and Collision Avoidance","comments":"13 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.NI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Emergency communication is vital for search and rescue operations following\nnatural disasters. Unmanned Aerial Vehicles (UAVs) can significantly assist\nemergency communication by agile positioning, maintaining connectivity during\nrapid motion, and relaying critical disaster-related information to Ground\nControl Stations (GCS). Designing effective routing protocols for relaying\ncrucial data in UAV networks is challenging due to dynamic topology, rapid\nmobility, and limited UAV resources. This paper presents a novel\nenergy-constrained routing mechanism that ensures connectivity, inter-UAV\ncollision avoidance, and network restoration post-UAV fragmentation while\nadapting without a predefined UAV path. The proposed method employs improved Q\nlearning to optimize the next-hop node selection. Considering these factors,\nthe paper proposes a novel, Improved Q-learning-based Multi-hop Routing (IQMR)\nprotocol. Simulation results validate IQMRs adaptability to changing system\nconditions and superiority over QMR, QTAR, and QFANET in energy efficiency and\ndata throughput. IQMR achieves energy consumption efficiency improvements of\n32.27%, 36.35%, and 36.35% over QMR, Q-FANET, and QTAR, along with\nsignificantly higher data throughput enhancements of 53.3%, 80.35%, and 93.36%\nover Q-FANET, QMR, and QTAR.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:37:45 GMT"}],"update_date":"2023-09-01","authors_parsed":[["P","Sharvari N",""],["Das","Dibakar",""],["Bapat","Jyotsna",""],["Das","Debabrata",""]]}
+{"id":"2308.16720","submitter":"Henrik Eisenmann","authors":"Markus Bachmayr, Henrik Eisenmann, Andr\\'e Uschmajew","title":"Dynamical low-rank tensor approximations to high-dimensional parabolic\n problems: existence and convergence of spatial discretizations","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.NA cs.NA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We consider dynamical low-rank approximations to parabolic problems on\nhigher-order tensor manifolds in Hilbert spaces. In addition to existence of\nsolutions and their stability with respect to perturbations to the problem\ndata, we show convergence of spatial discretizations. Our framework\naccommodates various standard low-rank tensor formats for multivariate\nfunctions, including tensor train and hierarchical tensors.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:38:13 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Bachmayr","Markus",""],["Eisenmann","Henrik",""],["Uschmajew","Andr\u00e9",""]]}
+{"id":"2308.16721","submitter":"Nicolas Daans","authors":"Nicolas Daans, V\\'it\\v{e}zslav Kala, Siu Hang Man","title":"Universal quadratic forms and Northcott property of infinite number\n fields","comments":"preprint","journal-ref":null,"doi":null,"report-no":null,"categories":"math.NT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We show that if a universal quadratic form exists over an infinite degree,\ntotally real extension of the field of rationals $\\mathbb{Q}$, then the set of\ntotally positive integers in the extension does not have the Northcott\nproperty. In particular, this implies that no universal form exists over the\ncompositum of all totally real Galois fields of a fixed prime degree over\n$\\mathbb{Q}$. Further, by considering the existence of infinitely many square\nclasses of totally positive units, we show that no classical universal form\nexists over the compositum of all such fields of degree $3d$ (for each fixed\nodd integer $d$).\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:38:31 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Daans","Nicolas",""],["Kala","V\u00edt\u011bzslav",""],["Man","Siu Hang",""]]}
+{"id":"2308.16722","submitter":"Andrea Dubla Dr","authors":"L. Vermunt, Y. Seemann, A. Dubla, S. Floerchinger, E. Grossi, A.\n Kirchner, S. Masciocchi, I. Selyuzhenkov","title":"Mapping QGP properties in Pb--Pb and Xe--Xe collisions at the LHC","comments":"17 pages, 7 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" A phenomenological analysis of the experimental measurements of transverse\nmomentum spectra of identified charged hadrons and strange hyperons in \\PbPb\nand \\XeXe collisions at the LHC is presented. The analysis is based on the\nrelativistic fluid dynamics description implemented in the numerically\nefficient \\fluidum approach. Building on our previous work, we separate in our\ntreatment the chemical and kinetic freeze-out, and incorporate the partial\nchemical equilibrium to describe the late stages of the collision evolution.\nThis analysis makes use of Bayesian inference to determine key parameters of\nthe QGP evolution and its properties including the shear and bulk viscosity to\nentropy ratios, the initialisation time, the initial entropy density, and the\nfreeze-out temperatures. The physics parameters and their posterior\nprobabilities are extracted using a global search in multidimensional space\nwith modern machine learning tools, such as ensembles of neural networks. We\nemploy our newly developed fast framework to assess systematic uncertainties in\nthe extracted model parameters by systematically varying key components of our\nanalysis.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:40:00 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Vermunt","L.",""],["Seemann","Y.",""],["Dubla","A.",""],["Floerchinger","S.",""],["Grossi","E.",""],["Kirchner","A.",""],["Masciocchi","S.",""],["Selyuzhenkov","I.",""]]}
+{"id":"2308.16723","submitter":"Victor Valad\\~ao","authors":"Victor de Jesus Valad\\~ao","title":"Circulation Statistics in Homogeneous and Isotropic Turbulence","comments":"Ph.D. Thesis - preliminary version","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.flu-dyn","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This is the committee version of a Thesis presented to the PostGrad Program\nin Physics of the Physics Institute of the Federal University of Rio de Janeiro\n(UFRJ), as a necessary requirement for the title of Ph.D. in Science (Physics).\nThe development of the Vortex Gas Model (VGM) introduces a novel statistical\nframework for describing the characteristics of velocity circulation. In this\nmodel, the underlying foundations rely on the statistical attributes of two\nfundamental constituents. The first is a GMC field that governs intermittent\nbehavior and the second constituent is a Gaussian Free field responsible for\nthe partial polarization of the vortices in the gas. The model is revisited in\na more sophisticated language, where volume exclusion among vortices is\naddressed. These additions were subsequently validated through numerical\nsimulations of turbulent Navier-Stokes equations. This revised approach\nharmonizes with the multifractal characteristics exhibited by circulation\nstatistics, offering a compelling elucidation for the phenomenon of\nlinearization of the statistical circulation moments, observed in recent\nnumerical simulation.\n In the end, a field theoretical approach, known as\nMartin-Siggia-Rose-Janssen-de Dominicis (MSRJD) functional method is carried\nout in the context of circulation probability density function. This approach\ndelves into the realm of extreme circulation events, often referred to as\nInstantons, through two distinct methodologies: The First investigates the\nlinear solutions and, by a renormalization group argument a time-rescaling\nsymmetry is discussed. Secondly, a numerical strategy is implemented to tackle\nthe nonlinear instanton equations in the axisymmetric approximation. This\napproach addresses the typical topology exhibited by the velocity field\nassociated with extreme circulation events.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:40:04 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Valad\u00e3o","Victor de Jesus",""]]}
+{"id":"2308.16724","submitter":"Luise Kaven","authors":"Luise F. Kaven, Artur M. Schweidtmann, Jan Keil, Jana Israel, Nadja\n Wolter, Alexander Mitsos","title":"Data-driven Product-Process Optimization of N-isopropylacrylamide\n Microgel Flow-Synthesis","comments":"Manuscript: 24 pages, 8 figures; SI: 9 pages, 3 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Microgels are cross-linked, colloidal polymer networks with great potential\nfor stimuli-response release in drug-delivery applications, as their size in\nthe nanometer range allows them to pass human cell boundaries. For applications\nwith specified requirements regarding size, producing tailored microgels in a\ncontinuous flow reactor is advantageous because the microgel properties can be\ncontrolled tightly. However, no fully-specified mechanistic models are\navailable for continuous microgel synthesis, as the physical properties of the\nincluded components are only studied partly. To address this gap and accelerate\ntailor-made microgel development, we propose a data-driven optimization in a\nhardware-in-the-loop approach to efficiently synthesize microgels with defined\nsizes. We optimize the synthesis regarding conflicting objectives (maximum\nproduction efficiency, minimum energy consumption, and the desired microgel\nradius) by applying Bayesian optimization via the solver ``Thompson sampling\nefficient multi-objective optimization'' (TS-EMO). We validate the optimization\nusing the deterministic global solver ``McCormick-based Algorithm for\nmixed-integer Nonlinear Global Optimization'' (MAiNGO) and verify three\ncomputed Pareto optimal solutions via experiments. The proposed framework can\nbe applied to other desired microgel properties and reactor setups and has the\npotential of efficient development by minimizing number of experiments and\nmodelling effort needed.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:40:08 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Kaven","Luise F.",""],["Schweidtmann","Artur M.",""],["Keil","Jan",""],["Israel","Jana",""],["Wolter","Nadja",""],["Mitsos","Alexander",""]]}
+{"id":"2308.16725","submitter":"Zexin Hu Mr.","authors":"Zexin Hu, Kun Hu, Clinton Mo, Lei Pan, Zhiyong Wang","title":"Terrain Diffusion Network: Climatic-Aware Terrain Generation with\n Geological Sketch Guidance","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV cs.AI cs.MM","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Sketch-based terrain generation seeks to create realistic landscapes for\nvirtual environments in various applications such as computer games, animation\nand virtual reality. Recently, deep learning based terrain generation has\nemerged, notably the ones based on generative adversarial networks (GAN).\nHowever, these methods often struggle to fulfill the requirements of flexible\nuser control and maintain generative diversity for realistic terrain.\nTherefore, we propose a novel diffusion-based method, namely terrain diffusion\nnetwork (TDN), which actively incorporates user guidance for enhanced\ncontrollability, taking into account terrain features like rivers, ridges,\nbasins, and peaks. Instead of adhering to a conventional monolithic denoising\nprocess, which often compromises the fidelity of terrain details or the\nalignment with user control, a multi-level denoising scheme is proposed to\ngenerate more realistic terrains by taking into account fine-grained details,\nparticularly those related to climatic patterns influenced by erosion and\ntectonic activities. Specifically, three terrain synthesisers are designed for\nstructural, intermediate, and fine-grained level denoising purposes, which\nallow each synthesiser concentrate on a distinct terrain aspect. Moreover, to\nmaximise the efficiency of our TDN, we further introduce terrain and sketch\nlatent spaces for the synthesizers with pre-trained terrain autoencoders.\nComprehensive experiments on a new dataset constructed from NASA Topology\nImages clearly demonstrate the effectiveness of our proposed method, achieving\nthe state-of-the-art performance. Our code and dataset will be publicly\navailable.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:41:34 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Hu","Zexin",""],["Hu","Kun",""],["Mo","Clinton",""],["Pan","Lei",""],["Wang","Zhiyong",""]]}
+{"id":"2308.16726","submitter":"Thierry Coquand","authors":"Thierry Coquand","title":"A variation of Reynolds-Hurkens Paradox","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LO math.LO","license":"http://creativecommons.org/publicdomain/zero/1.0/","abstract":" We present a variation of Hurkens paradox, which can itself be seen as a\nvariation of Reynolds result that there is no set theoretic model of\npolymorphism.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:42:07 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Coquand","Thierry",""]]}
+{"id":"2308.16727","submitter":"Muneya Matsui","authors":"Muneya Matsui and Toshiro Watanabe","title":"On convolution closure properties of subexponentiality approaching from\n densities","comments":"23 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.PR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Non-closedness of subexponentiality by the convolution operation is\nwell-known. We go a step further and show that subexponentiality and\nnon-subexponentiality are generally changeable by the convolution. We also give\nseveral conditions, by which (non-) subexponentiality is kept. Most results are\ngiven with densities, which are easily converted to those for distributions. As\na by-product, we give counterexamples to several past results, which were used\nto derive the non-closedness of the convolution, and modify the original proof.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:43:18 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Matsui","Muneya",""],["Watanabe","Toshiro",""]]}
+{"id":"2308.16728","submitter":"Michael Tait","authors":"John Byrne, Michael Tait, and Craig Timmons","title":"Forbidden subgraphs and complete partitions","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" A graph is called an $(r,k)$-graph if its vertex set can be partitioned into\n$r$ parts of size at most $k$ with at least one edge between any two parts. Let\n$f(r,H)$ be the minimum $k$ for which there exists an $H$-free $(r,k)$-graph.\nIn this paper we build on the work of Axenovich and Martin, obtaining improved\nbounds on this function when $H$ is a complete bipartite graph, even cycle, or\ntree. Some of these bounds are best possible up to a constant factor and\nconfirm a conjecture of Axenovich and Martin in several cases. We also\ngeneralize this extremal problem to uniform hypergraphs and prove some initial\nresults in that setting.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:46:39 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Byrne","John",""],["Tait","Michael",""],["Timmons","Craig",""]]}
+{"id":"2308.16729","submitter":"Ivano Malavolta","authors":"Ivano Malavolta, Kishan Nirghin, Gian Luca Scoccia, Simone Romano,\n Salvatore Lombardi, Giuseppe Scanniello, Patricia Lago","title":"JavaScript Dead Code Identification, Elimination, and Empirical\n Assessment","comments":null,"journal-ref":null,"doi":"10.1109/TSE.2023.3267848","report-no":null,"categories":"cs.SE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Web apps are built by using a combination of HTML, CSS, and JavaScript. While\nbuilding modern web apps, it is common practice to make use of third-party\nlibraries and frameworks, as to improve developers' productivity and code\nquality. Alongside these benefits, the adoption of such libraries results in\nthe introduction of JavaScript dead code, i.e., code implementing unused\nfunctionalities. The costs for downloading and parsing dead code can negatively\ncontribute to the loading time and resource usage of web apps. The goal of our\nstudy is two-fold. First, we present Lacuna, an approach for automatically\ndetecting and eliminating JavaScript dead code from web apps. The proposed\napproach supports both static and dynamic analyses, it is extensible and can be\napplied to any JavaScript code base, without imposing constraints on the coding\nstyle or on the use of specific JavaScript constructs. Secondly, by leveraging\nLacuna we conduct an experiment to empirically evaluate the run-time overhead\nof JavaScript dead code in terms of energy consumption, performance, network\nusage, and resource usage in the context of mobile web apps. We applied Lacuna\nfour times on 30 mobile web apps independently developed by third-party\ndevelopers, each time eliminating dead code according to a different\noptimization level provided by Lacuna. Afterward, each different version of the\nweb app is executed on an Android device, while collecting measures to assess\nthe potential run-time overhead caused by dead code. Experimental results,\namong others, highlight that the removal of JavaScript dead code has a positive\nimpact on the loading time of mobile web apps, while significantly reducing the\nnumber of bytes transferred over the network.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:48:39 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Malavolta","Ivano",""],["Nirghin","Kishan",""],["Scoccia","Gian Luca",""],["Romano","Simone",""],["Lombardi","Salvatore",""],["Scanniello","Giuseppe",""],["Lago","Patricia",""]]}
+{"id":"2308.16730","submitter":"Mahmoud Salhab","authors":"Mahmoud Salhab and Khaleel Mershad","title":"Proof of Deep Learning: Approaches, Challenges, and Future Directions","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CR cs.AI","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The rise of computational power has led to unprecedented performance gains\nfor deep learning models. As more data becomes available and model\narchitectures become more complex, the need for more computational power\nincreases. On the other hand, since the introduction of Bitcoin as the first\ncryptocurrency and the establishment of the concept of blockchain as a\ndistributed ledger, many variants and approaches have been proposed. However,\nmany of them have one thing in common, which is the Proof of Work (PoW)\nconsensus mechanism. PoW is mainly used to support the process of new block\ngeneration. While PoW has proven its robustness, its main drawback is that it\nrequires a significant amount of processing power to maintain the security and\nintegrity of the blockchain. This is due to applying brute force to solve a\nhashing puzzle. To utilize the computational power available in useful and\nmeaningful work while keeping the blockchain secure, many techniques have been\nproposed, one of which is known as Proof of Deep Learning (PoDL). PoDL is a\nconsensus mechanism that uses the process of training a deep learning model as\nproof of work to add new blocks to the blockchain. In this paper, we survey the\nvarious approaches for PoDL. We discuss the different types of PoDL algorithms,\ntheir advantages and disadvantages, and their potential applications. We also\ndiscuss the challenges of implementing PoDL and future research directions.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:49:04 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Salhab","Mahmoud",""],["Mershad","Khaleel",""]]}
+{"id":"2308.16731","submitter":"Pierre-David Letourneau","authors":"Pierre-David Letourneau, Dalton Jones, Matthew Morse, M. Harper\n Langston","title":"An Efficient Framework for Global Non-Convex Polynomial Optimization\n over the Hypercube","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.OC cs.MS cs.NA math.NA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We present a novel efficient theoretical and numerical framework for solving\nglobal non-convex polynomial optimization problems. We analytically demonstrate\nthat such problems can be efficiently reformulated using a non-linear objective\nover a convex set; further, these reformulated problems possess no spurious\nlocal minima (i.e., every local minimum is a global minimum). We introduce an\nalgorithm for solving these resulting problems using the augmented Lagrangian\nand the method of Burer and Monteiro. We show through numerical experiments\nthat polynomial scaling in dimension and degree is achievable for computing the\noptimal value and location of previously intractable global polynomial\noptimization problems in high dimension.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:49:47 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Letourneau","Pierre-David",""],["Jones","Dalton",""],["Morse","Matthew",""],["Langston","M. Harper",""]]}
+{"id":"2308.16732","submitter":"Emilie Habart","authors":"Emilie Habart, Els Peeters, Olivier Bern\\'e, Boris Trahin, Am\\'elie\n Canin, Ryan Chown, Ameek Sidhu, Dries Van De Putte, Felipe Alarc\\'on, Ilane\n Schroetter, Emmanuel Dartois, S\\'ilvia Vicente, Alain Abergel, Edwin A.\n Bergin, Jeronimo Bernard-Salas, Christiaan Boersma, Emeric Bron, Jan Cami,\n Sara Cuadrado, Daniel Dicken, Meriem Elyajouri, Asunci\\'on Fuente, Javier R.\n Goicoechea, Karl D.Gordon, Lina Issa, Christine Joblin, Olga Kannavou, Baria\n Khan, Ozan Lacinbala, David Languignon, Romane Le Gal, Alexandros\n Maragkoudakis, Raphael Meshaka, Yoko Okada, Takashi Onaka, Sofia Pasquini,\n Marc W. Pound, Massimo Robberto, Markus R\\\"ollig, Bethany Schefter,\n Thi\\'ebaut Schirmer, Benoit Tabone, Alexander G.~G.~M. Tielens, Mark G.\n Wolfire, Marion Zannese, Nathalie Ysard, Marc-Antoine Miville-Deschenes,\n Isabel Aleman, Louis Allamandola, Rebecca Auchettl, Giuseppe Antonio Baratta,\n Salma Bejaoui, Partha P. Bera, John~H.~Black, Francois~Boulanger, Jordy\n Bouwman, Bernhard Brandl, Philippe Brechignac, Sandra Br\\\"unken, Mridusmita\n Buragohain, rew Burkhardt, Alessandra Candian, St\\'ephanie Cazaux, Jose\n Cernicharo, Marin Chabot, Shubhadip Chakraborty, Jason Champion, Sean W.J.\n Colgan, Ilsa R. Cooke, Audrey Coutens, Nick L.J. Cox, Karine Demyk, Jennifer\n Donovan Meyer, Sacha Foschino, Pedro Garc\\'ia-Lario, Lisseth Gavilan,\n Maryvonne Gerin, Carl A. Gottlieb, Pierre Guillard, Antoine Gusdorf, Patrick\n Hartigan, Jinhua He, Eric Herbst, Liv Hornekaer, Cornelia J\\\"ager, Eduardo\n Janot-Pacheco, Michael Kaufman, Francisca Kemper, Sarah Kendrew, Maria S.\n Kirsanova, Pamela Klaassen, Sun Kwok, \\'Alvaro Labiano, Thomas S.-Y. Lai,\n Timothy J. Lee, Bertrand Lefloch, Franck Le Petit, Aigen Li, Hendrik Linz,\n Cameron J. Mackie, Suzanne C. Madden, Jo\\\"elle Mascetti, Brett A. McGuire,\n Pablo Merino, Elisabetta R. Micelotta, Karl Misselt, Jon A. Morse, Giacomo\n Mulas, Naslim Neelamkodan, Ryou Ohsawa, Alain Omont, Roberta Paladini, Maria\n Elisabetta Palumbo, Amit Pathak, Yvonne J. Pendleton, Annemieke Petrignani,\n Thomas Pino, Elena Puga, Naseem Rangwala, Mathias Rapacioli, Alessandra\n Ricca, Julia Roman-Duval, Joseph~Roser, Evelyne Roueff, Ga\\\"el Rouill\\'e,\n Farid Salama, Dinalva A. Sales, Karin Sandstrom, Peter Sarre, Ella\n Sciamma-O'Brien, Kris Sellgren, Sachindev S. Shenoy, David Teyssier, Richard\n D. Thomas, Aditya Togi, Laurent Verstraete, Adolf N. Witt, Alwyn Wootten,\n Henning Zettergren, Yong Zhang, Ziwei E. Zhang, Junfeng Zhen","title":"PDRs4All II: JWST's NIR and MIR imaging view of the Orion Nebula","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA","license":"http://creativecommons.org/publicdomain/zero/1.0/","abstract":" The JWST has captured the most detailed and sharpest infrared images ever\ntaken of the inner region of the Orion Nebula, the nearest massive star\nformation region, and a prototypical highly irradiated dense photo-dissociation\nregion (PDR). We investigate the fundamental interaction of far-ultraviolet\nphotons with molecular clouds. The transitions across the ionization front\n(IF), dissociation front (DF), and the molecular cloud are studied at\nhigh-angular resolution. These transitions are relevant to understanding the\neffects of radiative feedback from massive stars and the dominant physical and\nchemical processes that lead to the IR emission that JWST will detect in many\nGalactic and extragalactic environments. Due to the proximity of the Orion\nNebula and the unprecedented angular resolution of JWST, these data reveal that\nthe molecular cloud borders are hyper structured at small angular scales of\n0.1-1\" (0.0002-0.002 pc or 40-400 au at 414 pc). A diverse set of features are\nobserved such as ridges, waves, globules and photoevaporated protoplanetary\ndisks. At the PDR atomic to molecular transition, several bright features are\ndetected that are associated with the highly irradiated surroundings of the\ndense molecular condensations and embedded young star. Toward the Orion Bar\nPDR, a highly sculpted interface is detected with sharp edges and density\nincreases near the IF and DF. This was predicted by previous modeling studies,\nbut the fronts were unresolved in most tracers. A complex, structured, and\nfolded DF surface was traced by the H2 lines. This dataset was used to revisit\nthe commonly adopted 2D PDR structure of the Orion Bar. JWST provides us with a\ncomplete view of the PDR, all the way from the PDR edge to the substructured\ndense region, and this allowed us to determine, in detail, where the emission\nof the atomic and molecular lines, aromatic bands, and dust originate.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:50:23 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Habart","Emilie",""],["Peeters","Els",""],["Bern\u00e9","Olivier",""],["Trahin","Boris",""],["Canin","Am\u00e9lie",""],["Chown","Ryan",""],["Sidhu","Ameek",""],["Van De Putte","Dries",""],["Alarc\u00f3n","Felipe",""],["Schroetter","Ilane",""],["Dartois","Emmanuel",""],["Vicente","S\u00edlvia",""],["Abergel","Alain",""],["Bergin","Edwin A.",""],["Bernard-Salas","Jeronimo",""],["Boersma","Christiaan",""],["Bron","Emeric",""],["Cami","Jan",""],["Cuadrado","Sara",""],["Dicken","Daniel",""],["Elyajouri","Meriem",""],["Fuente","Asunci\u00f3n",""],["Goicoechea","Javier R.",""],["Gordon","Karl D.",""],["Issa","Lina",""],["Joblin","Christine",""],["Kannavou","Olga",""],["Khan","Baria",""],["Lacinbala","Ozan",""],["Languignon","David",""],["Gal","Romane Le",""],["Maragkoudakis","Alexandros",""],["Meshaka","Raphael",""],["Okada","Yoko",""],["Onaka","Takashi",""],["Pasquini","Sofia",""],["Pound","Marc W.",""],["Robberto","Massimo",""],["R\u00f6llig","Markus",""],["Schefter","Bethany",""],["Schirmer","Thi\u00e9baut",""],["Tabone","Benoit",""],["Tielens","Alexander G. ~G. ~M.",""],["Wolfire","Mark G.",""],["Zannese","Marion",""],["Ysard","Nathalie",""],["Miville-Deschenes","Marc-Antoine",""],["Aleman","Isabel",""],["Allamandola","Louis",""],["Auchettl","Rebecca",""],["Baratta","Giuseppe Antonio",""],["Bejaoui","Salma",""],["Bera","Partha P.",""],["~Black","John~H.",""],["Francois~Boulanger","",""],["Bouwman","Jordy",""],["Brandl","Bernhard",""],["Brechignac","Philippe",""],["Br\u00fcnken","Sandra",""],["Buragohain","Mridusmita",""],["Burkhardt","rew",""],["Candian","Alessandra",""],["Cazaux","St\u00e9phanie",""],["Cernicharo","Jose",""],["Chabot","Marin",""],["Chakraborty","Shubhadip",""],["Champion","Jason",""],["Colgan","Sean W. J.",""],["Cooke","Ilsa R.",""],["Coutens","Audrey",""],["Cox","Nick L. J.",""],["Demyk","Karine",""],["Meyer","Jennifer Donovan",""],["Foschino","Sacha",""],["Garc\u00eda-Lario","Pedro",""],["Gavilan","Lisseth",""],["Gerin","Maryvonne",""],["Gottlieb","Carl A.",""],["Guillard","Pierre",""],["Gusdorf","Antoine",""],["Hartigan","Patrick",""],["He","Jinhua",""],["Herbst","Eric",""],["Hornekaer","Liv",""],["J\u00e4ger","Cornelia",""],["Janot-Pacheco","Eduardo",""],["Kaufman","Michael",""],["Kemper","Francisca",""],["Kendrew","Sarah",""],["Kirsanova","Maria S.",""],["Klaassen","Pamela",""],["Kwok","Sun",""],["Labiano","\u00c1lvaro",""],["Lai","Thomas S. -Y.",""],["Lee","Timothy J.",""],["Lefloch","Bertrand",""],["Petit","Franck Le",""],["Li","Aigen",""],["Linz","Hendrik",""],["Mackie","Cameron J.",""],["Madden","Suzanne C.",""],["Mascetti","Jo\u00eblle",""],["McGuire","Brett A.",""],["Merino","Pablo",""],["Micelotta","Elisabetta R.",""],["Misselt","Karl",""],["Morse","Jon A.",""],["Mulas","Giacomo",""],["Neelamkodan","Naslim",""],["Ohsawa","Ryou",""],["Omont","Alain",""],["Paladini","Roberta",""],["Palumbo","Maria Elisabetta",""],["Pathak","Amit",""],["Pendleton","Yvonne J.",""],["Petrignani","Annemieke",""],["Pino","Thomas",""],["Puga","Elena",""],["Rangwala","Naseem",""],["Rapacioli","Mathias",""],["Ricca","Alessandra",""],["Roman-Duval","Julia",""],["Joseph~Roser","",""],["Roueff","Evelyne",""],["Rouill\u00e9","Ga\u00ebl",""],["Salama","Farid",""],["Sales","Dinalva A.",""],["Sandstrom","Karin",""],["Sarre","Peter",""],["Sciamma-O'Brien","Ella",""],["Sellgren","Kris",""],["Shenoy","Sachindev S.",""],["Teyssier","David",""],["Thomas","Richard D.",""],["Togi","Aditya",""],["Verstraete","Laurent",""],["Witt","Adolf N.",""],["Wootten","Alwyn",""],["Zettergren","Henning",""],["Zhang","Yong",""],["Zhang","Ziwei E.",""],["Zhen","Junfeng",""]]}
+{"id":"2308.16733","submitter":"Ryan Chown","authors":"Ryan Chown and Ameek Sidhu and Els Peeters and Alexander G. G. M.\n Tielens and Jan Cami and Olivier Berne and Emilie Habart and Felipe Alarcon\n and Amelie Canin and Ilane Schroetter and Boris Trahin and Dries Van De Putte\n and Alain Abergel and Edwin A. Bergin and Jeronimo Bernard-Salas and\n Christiaan Boersma and Emeric Bron and Sara Cuadrado and Emmanuel Dartois and\n Daniel Dicken and Meriem El-Yajouri and Asuncion Fuente and Javier R.\n Goicoechea and Karl D. Gordon and Lina Issa and Christine Joblin and Olga\n Kannavou and Baria Khan and Ozan Lacinbala and David Languignon and Romane Le\n Gal and Alexandros Maragkoudakis and Raphael Meshaka and Yoko Okada and\n Takashi Onaka and Sofia Pasquini and Marc W. Pound and Massimo Robberto and\n Markus Rollig and Bethany Schefter and Thiebaut Schirmer and Silvia Vicente\n and Mark G. Wolfire and Marion Zannese and Isabel Aleman and Louis\n Allamandola and Rebecca Auchettl and Giuseppe Antonio Baratta and Salma\n Bejaoui and Partha P. Bera and John H. Black and Francois Boulanger and Jordy\n Bouwman and Bernhard Brandl and Philippe Brechignac and Sandra Brunken and\n Mridusmita Buragohain and Andrew Burkhardt and Alessandra Candian and\n Stephanie Cazaux and Jose Cernicharo and Marin Chabot and Shubhadip\n Chakraborty and Jason Champion and Sean W.J. Colgan and Ilsa R. Cooke and\n Audrey Coutens and Nick L.J. Cox and Karine Demyk and Jennifer Donovan Meyer\n and Sacha Foschino and Pedro Garcia-Lario and Lisseth Gavilan and Maryvonne\n Gerin and Carl A. Gottlieb and Pierre Guillard and Antoine Gusdorf and\n Patrick Hartigan and Jinhua He and Eric Herbst and Liv Hornekaer and Cornelia\n Jager and Eduardo Janot-Pacheco and Michael Kaufman and Francisca Kemper and\n Sarah Kendrew and Maria S. Kirsanova and Pamela Klaassen and Sun Kwok and\n Alvaro Labiano and Thomas S.-Y. Lai and Timothy J. Lee and Bertrand Lefloch\n and Franck Le Petit and Aigen Li and Hendrik Linz and Cameron J. Mackie and\n Suzanne C. Madden and Joelle Mascetti and Brett A. McGuire and Pablo Merino\n and Elisabetta R. Micelotta and Karl Misselt and Jon A. Morse and Giacomo\n Mulas and Naslim Neelamkodan and Ryou Ohsawa and Alain Omont and Roberta\n Paladini and Maria Elisabetta Palumbo and Amit Pathak and Yvonne J. Pendleton\n and Annemieke Petrignani and Thomas Pino and Elena Puga and Naseem Rangwala\n and Mathias Rapacioli and Alessandra Ricca and Julia Roman-Duval and Joseph\n Roser and Evelyne Roueff and Gael Rouillee and Farid Salama and Dinalva A.\n Sales and Karin Sandstrom and Peter Sarre and Ella Sciamma-O'Brien and Kris\n Sellgren and Sachindev S. Shenoy and David Teyssier and Richard D. Thomas and\n Aditya Togi and Laurent Verstraete and Adolf N. Witt and Alwyn Wootten and\n Henning Zettergren and Yong Zhang and Ziwei E. Zhang and Junfeng Zhen","title":"PDRs4All IV. An embarrassment of riches: Aromatic infrared bands in the\n Orion Bar","comments":"25 pages, 10 figures, to appear in A&A","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA astro-ph.SR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" (Abridged) Mid-infrared observations of photodissociation regions (PDRs) are\ndominated by strong emission features called aromatic infrared bands (AIBs).\nThe most prominent AIBs are found at 3.3, 6.2, 7.7, 8.6, and 11.2 $\\mu$m. The\nmost sensitive, highest-resolution infrared spectral imaging data ever taken of\nthe prototypical PDR, the Orion Bar, have been captured by JWST. We provide an\ninventory of the AIBs found in the Orion Bar, along with mid-IR template\nspectra from five distinct regions in the Bar: the molecular PDR, the atomic\nPDR, and the HII region. We use JWST NIRSpec IFU and MIRI MRS observations of\nthe Orion Bar from the JWST Early Release Science Program, PDRs4All (ID: 1288).\nWe extract five template spectra to represent the morphology and environment of\nthe Orion Bar PDR. The superb sensitivity and the spectral and spatial\nresolution of these JWST observations reveal many details of the AIB emission\nand enable an improved characterization of their detailed profile shapes and\nsub-components. While the spectra are dominated by the well-known AIBs at 3.3,\n6.2, 7.7, 8.6, 11.2, and 12.7 $\\mu$m, a wealth of weaker features and\nsub-components are present. We report trends in the widths and relative\nstrengths of AIBs across the five template spectra. These trends yield valuable\ninsight into the photochemical evolution of PAHs, such as the evolution\nresponsible for the shift of 11.2 $\\mu$m AIB emission from class B$_{11.2}$ in\nthe molecular PDR to class A$_{11.2}$ in the PDR surface layers. This\nphotochemical evolution is driven by the increased importance of FUV processing\nin the PDR surface layers, resulting in a \"weeding out\" of the weakest links of\nthe PAH family in these layers. For now, these JWST observations are consistent\nwith a model in which the underlying PAH family is composed of a few species:\nthe so-called 'grandPAHs'.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:50:34 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Chown","Ryan",""],["Sidhu","Ameek",""],["Peeters","Els",""],["Tielens","Alexander G. G. M.",""],["Cami","Jan",""],["Berne","Olivier",""],["Habart","Emilie",""],["Alarcon","Felipe",""],["Canin","Amelie",""],["Schroetter","Ilane",""],["Trahin","Boris",""],["Van De Putte","Dries",""],["Abergel","Alain",""],["Bergin","Edwin A.",""],["Bernard-Salas","Jeronimo",""],["Boersma","Christiaan",""],["Bron","Emeric",""],["Cuadrado","Sara",""],["Dartois","Emmanuel",""],["Dicken","Daniel",""],["El-Yajouri","Meriem",""],["Fuente","Asuncion",""],["Goicoechea","Javier R.",""],["Gordon","Karl D.",""],["Issa","Lina",""],["Joblin","Christine",""],["Kannavou","Olga",""],["Khan","Baria",""],["Lacinbala","Ozan",""],["Languignon","David",""],["Gal","Romane Le",""],["Maragkoudakis","Alexandros",""],["Meshaka","Raphael",""],["Okada","Yoko",""],["Onaka","Takashi",""],["Pasquini","Sofia",""],["Pound","Marc W.",""],["Robberto","Massimo",""],["Rollig","Markus",""],["Schefter","Bethany",""],["Schirmer","Thiebaut",""],["Vicente","Silvia",""],["Wolfire","Mark G.",""],["Zannese","Marion",""],["Aleman","Isabel",""],["Allamandola","Louis",""],["Auchettl","Rebecca",""],["Baratta","Giuseppe Antonio",""],["Bejaoui","Salma",""],["Bera","Partha P.",""],["Black","John H.",""],["Boulanger","Francois",""],["Bouwman","Jordy",""],["Brandl","Bernhard",""],["Brechignac","Philippe",""],["Brunken","Sandra",""],["Buragohain","Mridusmita",""],["Burkhardt","Andrew",""],["Candian","Alessandra",""],["Cazaux","Stephanie",""],["Cernicharo","Jose",""],["Chabot","Marin",""],["Chakraborty","Shubhadip",""],["Champion","Jason",""],["Colgan","Sean W. J.",""],["Cooke","Ilsa R.",""],["Coutens","Audrey",""],["Cox","Nick L. J.",""],["Demyk","Karine",""],["Meyer","Jennifer Donovan",""],["Foschino","Sacha",""],["Garcia-Lario","Pedro",""],["Gavilan","Lisseth",""],["Gerin","Maryvonne",""],["Gottlieb","Carl A.",""],["Guillard","Pierre",""],["Gusdorf","Antoine",""],["Hartigan","Patrick",""],["He","Jinhua",""],["Herbst","Eric",""],["Hornekaer","Liv",""],["Jager","Cornelia",""],["Janot-Pacheco","Eduardo",""],["Kaufman","Michael",""],["Kemper","Francisca",""],["Kendrew","Sarah",""],["Kirsanova","Maria S.",""],["Klaassen","Pamela",""],["Kwok","Sun",""],["Labiano","Alvaro",""],["Lai","Thomas S. -Y.",""],["Lee","Timothy J.",""],["Lefloch","Bertrand",""],["Petit","Franck Le",""],["Li","Aigen",""],["Linz","Hendrik",""],["Mackie","Cameron J.",""],["Madden","Suzanne C.",""],["Mascetti","Joelle",""],["McGuire","Brett A.",""],["Merino","Pablo",""],["Micelotta","Elisabetta R.",""],["Misselt","Karl",""],["Morse","Jon A.",""],["Mulas","Giacomo",""],["Neelamkodan","Naslim",""],["Ohsawa","Ryou",""],["Omont","Alain",""],["Paladini","Roberta",""],["Palumbo","Maria Elisabetta",""],["Pathak","Amit",""],["Pendleton","Yvonne J.",""],["Petrignani","Annemieke",""],["Pino","Thomas",""],["Puga","Elena",""],["Rangwala","Naseem",""],["Rapacioli","Mathias",""],["Ricca","Alessandra",""],["Roman-Duval","Julia",""],["Roser","Joseph",""],["Roueff","Evelyne",""],["Rouillee","Gael",""],["Salama","Farid",""],["Sales","Dinalva A.",""],["Sandstrom","Karin",""],["Sarre","Peter",""],["Sciamma-O'Brien","Ella",""],["Sellgren","Kris",""],["Shenoy","Sachindev S.",""],["Teyssier","David",""],["Thomas","Richard D.",""],["Togi","Aditya",""],["Verstraete","Laurent",""],["Witt","Adolf N.",""],["Wootten","Alwyn",""],["Zettergren","Henning",""],["Zhang","Yong",""],["Zhang","Ziwei E.",""],["Zhen","Junfeng",""]]}
+{"id":"2308.16734","submitter":"Ivano Malavolta","authors":"Ruben Horn, Abdellah Lahnaoui, Edgardo Reinoso, Sicheng Peng, Vadim\n Isakov, Tanjina Islam, Ivano Malavolta","title":"Native vs Web Apps: Comparing the Energy Consumption and Performance of\n Android Apps and their Web Counterparts","comments":null,"journal-ref":null,"doi":"10.1109/MOBILSoft59058.2023.00013","report-no":null,"categories":"cs.SE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Context. Many Internet content platforms, such as Spotify and YouTube,\nprovide their services via both native and Web apps. Even though those apps\nprovide similar features to the end user, using their native version or Web\ncounterpart might lead to different levels of energy consumption and\nperformance. Goal. The goal of this study is to empirically assess the energy\nconsumption and performance of native and Web apps in the context of Internet\ncontent platforms on Android. Method. We select 10 Internet content platforms\nacross 5 categories. Then, we measure them based on the energy consumption,\nnetwork traffic volume, CPU load, memory load, and frame time of their native\nand Web versions; then, we statistically analyze the collected measures and\nreport our results. Results. We confirm that native apps consume significantly\nless energy than their Web counterparts, with large effect size. Web apps use\nmore CPU and memory, with statistically significant difference and large effect\nsize. Therefore, we conclude that native apps tend to require fewer hardware\nresources than their corresponding Web versions. The network traffic volume\nexhibits statistically significant difference in favour of native apps, with\nsmall effect size. Our results do not allow us to draw any conclusion in terms\nof frame time. Conclusions. Based on our results, we advise users to access\nInternet contents using native apps over Web apps, when possible. Also, the\nresults of this study motivate further research on the optimization of the\nusage of runtime resources of mobile Web apps and Android browsers.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:51:56 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Horn","Ruben",""],["Lahnaoui","Abdellah",""],["Reinoso","Edgardo",""],["Peng","Sicheng",""],["Isakov","Vadim",""],["Islam","Tanjina",""],["Malavolta","Ivano",""]]}
+{"id":"2308.16735","submitter":"Felix Wagner MSc.","authors":"Felix Wagner, Zeju Li, Pramit Saha, Konstantinos Kamnitsas","title":"Post-Deployment Adaptation with Access to Source Data via Federated\n Learning and Source-Target Remote Gradient Alignment","comments":"This version was accepted for the Machine Learning in Medical Imaging\n (MLMI 2023) workshop at MICCAI 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Deployment of Deep Neural Networks in medical imaging is hindered by\ndistribution shift between training data and data processed after deployment,\ncausing performance degradation. Post-Deployment Adaptation (PDA) addresses\nthis by tailoring a pre-trained, deployed model to the target data distribution\nusing limited labelled or entirely unlabelled target data, while assuming no\naccess to source training data as they cannot be deployed with the model due to\nprivacy concerns and their large size. This makes reliable adaptation\nchallenging due to limited learning signal. This paper challenges this\nassumption and introduces FedPDA, a novel adaptation framework that brings the\nutility of learning from remote data from Federated Learning into PDA. FedPDA\nenables a deployed model to obtain information from source data via remote\ngradient exchange, while aiming to optimize the model specifically for the\ntarget domain. Tailored for FedPDA, we introduce a novel optimization method\nStarAlign (Source-Target Remote Gradient Alignment) that aligns gradients\nbetween source-target domain pairs by maximizing their inner product, to\nfacilitate learning a target-specific model. We demonstrate the method's\neffectiveness using multi-center databases for the tasks of cancer metastases\ndetection and skin lesion classification, where our method compares favourably\nto previous work. Code is available at: https://github.com/FelixWag/StarAlign\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:52:28 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Wagner","Felix",""],["Li","Zeju",""],["Saha","Pramit",""],["Kamnitsas","Konstantinos",""]]}
+{"id":"2308.16736","submitter":"Malak Diab","authors":"Andreas Bartel, Malak Diab, Andreas Frommer, and Michael G\\\"unther","title":"Operator splitting for semi-explicit differential-algebraic equations\n and port-Hamiltonian DAEs","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.DS","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" Operator splitting methods allow to split the operator describing a complex\ndynamical system into a sequence of simpler subsystems and treat each part\nindependently. In the modeling of dynamical problems, systems of (possibly\ncoupled) differential-algebraic equations (DAEs) arise. This motivates the\napplication of operator splittings which are aware of the various structural\nforms of DAEs. Here, we present an approach for the splitting of coupled\nindex-1 DAE as well as for the splitting of port-Hamiltonian DAEs, taking\nadvantage of the energy-conservative and energy-dissipative parts. We provide\nnumerical examples illustrating our second-order convergence results.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:53:24 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Bartel","Andreas",""],["Diab","Malak",""],["Frommer","Andreas",""],["G\u00fcnther","Michael",""]]}
+{"id":"2308.16737","submitter":"Reza Mirzaeifard","authors":"Reza Mirzaeifard, Naveen K. D. Venkategowda, Stefan Werner","title":"Robust Networked Federated Learning for Localization","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This paper addresses the problem of localization, which is inherently\nnon-convex and non-smooth in a federated setting where the data is distributed\nacross a multitude of devices. Due to the decentralized nature of federated\nenvironments, distributed learning becomes essential for scalability and\nadaptability. Moreover, these environments are often plagued by outlier data,\nwhich presents substantial challenges to conventional methods, particularly in\nmaintaining estimation accuracy and ensuring algorithm convergence. To mitigate\nthese challenges, we propose a method that adopts an $L_1$-norm robust\nformulation within a distributed sub-gradient framework, explicitly designed to\nhandle these obstacles. Our approach addresses the problem in its original\nform, without resorting to iterative simplifications or approximations,\nresulting in enhanced computational efficiency and improved estimation\naccuracy. We demonstrate that our method converges to a stationary point,\nhighlighting its effectiveness and reliability. Through numerical simulations,\nwe confirm the superior performance of our approach, notably in outlier-rich\nenvironments, which surpasses existing state-of-the-art localization methods.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:54:37 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Mirzaeifard","Reza",""],["Venkategowda","Naveen K. D.",""],["Werner","Stefan",""]]}
+{"id":"2308.16738","submitter":"Yubiao Yue","authors":"Yubiao Yue, Jun Xue, Haihua Liang, Bingchun Luo, Zhenzhang Li","title":"US-SFNet: A Spatial-Frequency Domain-based Multi-branch Network for\n Cervical Lymph Node Lesions Diagnoses in Ultrasound Images","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"eess.IV cs.CV cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Ultrasound imaging serves as a pivotal tool for diagnosing cervical lymph\nnode lesions. However, the diagnoses of these images largely hinge on the\nexpertise of medical practitioners, rendering the process susceptible to\nmisdiagnoses. Although rapidly developing deep learning has substantially\nimproved the diagnoses of diverse ultrasound images, there remains a\nconspicuous research gap concerning cervical lymph nodes. The objective of our\nwork is to accurately diagnose cervical lymph node lesions by leveraging a deep\nlearning model. To this end, we first collected 3392 images containing normal\nlymph nodes, benign lymph node lesions, malignant primary lymph node lesions,\nand malignant metastatic lymph node lesions. Given that ultrasound images are\ngenerated by the reflection and scattering of sound waves across varied bodily\ntissues, we proposed the Conv-FFT Block. It integrates convolutional operations\nwith the fast Fourier transform to more astutely model the images. Building\nupon this foundation, we designed a novel architecture, named US-SFNet. This\narchitecture not only discerns variances in ultrasound images from the spatial\ndomain but also adeptly captures microstructural alterations across various\nlesions in the frequency domain. To ascertain the potential of US-SFNet, we\nbenchmarked it against 12 popular architectures through five-fold\ncross-validation. The results show that US-SFNet is SOTA and can achieve 92.89%\naccuracy, 90.46% precision, 89.95% sensitivity and 97.49% specificity,\nrespectively.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:54:57 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Yue","Yubiao",""],["Xue","Jun",""],["Liang","Haihua",""],["Luo","Bingchun",""],["Li","Zhenzhang",""]]}
+{"id":"2308.16739","submitter":"Jinkai Zheng","authors":"Jinkai Zheng, Xinchen Liu, Shuai Wang, Lihao Wang, Chenggang Yan, Wu\n Liu","title":"Parsing is All You Need for Accurate Gait Recognition in the Wild","comments":"16 pages, 14 figures, ACM MM 2023 accepted, project page:\n https://gait3d.github.io/gait3d-parsing-hp","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Binary silhouettes and keypoint-based skeletons have dominated human gait\nrecognition studies for decades since they are easy to extract from video\nframes. Despite their success in gait recognition for in-the-lab environments,\nthey usually fail in real-world scenarios due to their low information entropy\nfor gait representations. To achieve accurate gait recognition in the wild,\nthis paper presents a novel gait representation, named Gait Parsing Sequence\n(GPS). GPSs are sequences of fine-grained human segmentation, i.e., human\nparsing, extracted from video frames, so they have much higher information\nentropy to encode the shapes and dynamics of fine-grained human parts during\nwalking. Moreover, to effectively explore the capability of the GPS\nrepresentation, we propose a novel human parsing-based gait recognition\nframework, named ParsingGait. ParsingGait contains a Convolutional Neural\nNetwork (CNN)-based backbone and two light-weighted heads. The first head\nextracts global semantic features from GPSs, while the other one learns mutual\ninformation of part-level features through Graph Convolutional Networks to\nmodel the detailed dynamics of human walking. Furthermore, due to the lack of\nsuitable datasets, we build the first parsing-based dataset for gait\nrecognition in the wild, named Gait3D-Parsing, by extending the large-scale and\nchallenging Gait3D dataset. Based on Gait3D-Parsing, we comprehensively\nevaluate our method and existing gait recognition methods. The experimental\nresults show a significant improvement in accuracy brought by the GPS\nrepresentation and the superiority of ParsingGait. The code and dataset are\navailable at https://gait3d.github.io/gait3d-parsing-hp .\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:57:38 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zheng","Jinkai",""],["Liu","Xinchen",""],["Wang","Shuai",""],["Wang","Lihao",""],["Yan","Chenggang",""],["Liu","Wu",""]]}
+{"id":"2308.16740","submitter":"Oliver Porth","authors":"Mahdi Najafi-Ziyazi, Jordy Davelaar, Yosuke Mizuno and Oliver Porth","title":"Flares in the Galactic Centre II: polarisation signatures of flares at\n mm-wavelengths","comments":"submitted to MNRAS","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.HE gr-qc","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Recent polarimetric mm-observations of the galactic centre by Wielgus et al.\n(2022a) showed sinusoidal loops in the Q-U plane with a duration of one hour.\nThe loops coincide with a quasi-simultaneous X-ray flare. A promising mechanism\nto explain the flaring events are magnetic flux eruptions in magnetically\narrested accretion flows (MAD). In our previous work (Porth et al. 2021), we\nstudied the accretion flow dynamics during flux eruptions. Here, we extend our\nprevious study by investigating whether polarization loops can be a signature\nproduced by magnetic flux eruptions. We find that loops in the Q-U plane are\nrobustly produced in MAD models as they lead to enhanced emissivity of\ncompressed disk material due to orbiting flux bundles. A timing analysis of the\nsynthetic polarized lightcurves demonstrate a polarized excess variability at\ntimescales of ~ 1 hr. The polarization loops are also clearly imprinted on the\ncross-correlation of the Stokes parameters which allows to extract a typical\nperiodicity of 30 min to 1 hr with some evidence for a spin dependence. These\nresults are intrinsic to the MAD state and should thus hold for a wide range of\nastrophysical objects. A subset of GRMHD simulations without saturated magnetic\nflux (single temperature SANE models) also produces Q-U loops. However, in\ndisagreement with the findings of Wielgus et al. (2022a), loops in these\nsimulations are quasi-continuous with a low polarization excess\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:58:38 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Najafi-Ziyazi","Mahdi",""],["Davelaar","Jordy",""],["Mizuno","Yosuke",""],["Porth","Oliver",""]]}
+{"id":"2308.16741","submitter":"Reuben Tan","authors":"Katherine Deng, Arijit Ray, Reuben Tan, Saadia Gabriel, Bryan A.\n Plummer, Kate Saenko","title":"Socratis: Are large multimodal models emotionally aware?","comments":"ICCV 2023 WECIA","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AI cs.CV","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Existing emotion prediction benchmarks contain coarse emotion labels which do\nnot consider the diversity of emotions that an image and text can elicit in\nhumans due to various reasons. Learning diverse reactions to multimodal content\nis important as intelligent machines take a central role in generating and\ndelivering content to society. To address this gap, we propose Socratis, a\n\\underline{soc}ietal \\underline{r}e\\underline{a}c\\underline{ti}on\\underline{s}\nbenchmark, where each image-caption (IC) pair is annotated with multiple\nemotions and the reasons for feeling them. Socratis contains 18K free-form\nreactions for 980 emotions on 2075 image-caption pairs from 5 widely-read news\nand image-caption (IC) datasets. We benchmark the capability of\nstate-of-the-art multimodal large language models to generate the reasons for\nfeeling an emotion given an IC pair. Based on a preliminary human study, we\nobserve that humans prefer human-written reasons over 2 times more often than\nmachine-generated ones. This shows our task is harder than standard generation\ntasks because it starkly contrasts recent findings where humans cannot tell\napart machine vs human-written news articles, for instance. We further see that\ncurrent captioning metrics based on large vision-language models also fail to\ncorrelate with human preferences. We hope that these findings and our benchmark\nwill inspire further research on training emotionally aware models.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 13:59:35 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Deng","Katherine",""],["Ray","Arijit",""],["Tan","Reuben",""],["Gabriel","Saadia",""],["Plummer","Bryan A.",""],["Saenko","Kate",""]]}
+{"id":"2308.16742","submitter":"Xuan Liu","authors":"Xuan Liu, Yaoqin Xie, Songhui Diao, Shan Tan, and Xiaokun Liang","title":"Unsupervised CT Metal Artifact Reduction by Plugging Diffusion Priors in\n Dual Domains","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"eess.IV cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" During the process of computed tomography (CT), metallic implants often cause\ndisruptive artifacts in the reconstructed images, impeding accurate diagnosis.\nSeveral supervised deep learning-based approaches have been proposed for\nreducing metal artifacts (MAR). However, these methods heavily rely on training\nwith simulated data, as obtaining paired metal artifact CT and clean CT data in\nclinical settings is challenging. This limitation can lead to decreased\nperformance when applying these methods in clinical practice. Existing\nunsupervised MAR methods, whether based on learning or not, typically operate\nwithin a single domain, either in the image domain or the sinogram domain. In\nthis paper, we propose an unsupervised MAR method based on the diffusion model,\na generative model with a high capacity to represent data distributions.\nSpecifically, we first train a diffusion model using CT images without metal\nartifacts. Subsequently, we iteratively utilize the priors embedded within the\npre-trained diffusion model in both the sinogram and image domains to restore\nthe degraded portions caused by metal artifacts. This dual-domain processing\nempowers our approach to outperform existing unsupervised MAR methods,\nincluding another MAR method based on the diffusion model, which we have\nqualitatively and quantitatively validated using synthetic datasets. Moreover,\nour method demonstrates superior visual results compared to both supervised and\nunsupervised methods on clinical datasets.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:00:47 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Liu","Xuan",""],["Xie","Yaoqin",""],["Diao","Songhui",""],["Tan","Shan",""],["Liang","Xiaokun",""]]}
+{"id":"2308.16743","submitter":"Jacopo Panerati","authors":"Spencer Teetaert (1), Wenda Zhao (1), Niu Xinyuan (2), Hashir Zahir\n (2), Huiyu Leong (2), Michel Hidalgo (3), Gerardo Puga (3), Tomas Lorente\n (3), Nahuel Espinosa (3), John Alejandro Duarte Carrasco (3), Kaizheng Zhang\n (4), Jian Di (4), Tao Jin (4), Xiaohan Li (4), Yijia Zhou (4), Xiuhua Liang\n (4), Chenxu Zhang (4), Antonio Loquercio (5), Siqi Zhou (1 and 6), Lukas\n Brunke (1 and 6), Melissa Greeff (1), Wolfgang Hoenig (7), Jacopo Panerati\n (1), Angela P. Schoellig (1 and 6) ((1) University of Toronto Institute for\n Aerospace Studies, (2) Team H2, (3) Team Ekumen, (4) University of Science\n and Technology of China, (5) University of California Berkeley, (6) Technical\n University of Munich, (7) Technical University of Berlin)","title":"A Remote Sim2real Aerial Competition: Fostering Reproducibility and\n Solutions' Diversity in Robotics Challenges","comments":"13 pages, 16 figures, 4 tables","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.RO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Shared benchmark problems have historically been a fundamental driver of\nprogress for scientific communities. In the context of academic conferences,\ncompetitions offer the opportunity to researchers with different origins,\nbackgrounds, and levels of seniority to quantitatively compare their ideas. In\nrobotics, a hot and challenging topic is sim2real-porting approaches that work\nwell in simulation to real robot hardware. In our case, creating a hybrid\ncompetition with both simulation and real robot components was also dictated by\nthe uncertainties around travel and logistics in the post-COVID-19 world.\nHence, this article motivates and describes an aerial sim2real robot\ncompetition that ran during the 2022 IEEE/RSJ International Conference on\nIntelligent Robots and Systems, from the specification of the competition task,\nto the details of the software infrastructure supporting simulation and\nreal-life experiments, to the approaches of the top-placed teams and the\nlessons learned by participants and organizers.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:02:41 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Teetaert","Spencer","","1 and 6"],["Zhao","Wenda","","1 and 6"],["Xinyuan","Niu","","1 and 6"],["Zahir","Hashir","","1 and 6"],["Leong","Huiyu","","1 and 6"],["Hidalgo","Michel","","1 and 6"],["Puga","Gerardo","","1 and 6"],["Lorente","Tomas","","1 and 6"],["Espinosa","Nahuel","","1 and 6"],["Carrasco","John Alejandro Duarte","","1 and 6"],["Zhang","Kaizheng","","1 and 6"],["Di","Jian","","1 and 6"],["Jin","Tao","","1 and 6"],["Li","Xiaohan","","1 and 6"],["Zhou","Yijia","","1 and 6"],["Liang","Xiuhua","","1 and 6"],["Zhang","Chenxu","","1 and 6"],["Loquercio","Antonio","","1 and 6"],["Zhou","Siqi","","1 and 6"],["Brunke","Lukas","","1 and 6"],["Greeff","Melissa","","1 and 6"],["Hoenig","Wolfgang","","1 and 6"],["Panerati","Jacopo","","1 and 6"],["Schoellig","Angela P.","","1 and 6"]]}
+{"id":"2308.16744","submitter":"Mohsen Koohi Esfahani","authors":"Mohsen Koohi Esfahani, Paolo Boldi, Hans Vandierendonck, Peter\n Kilpatrick, Sebastiano Vigna","title":"MS-BioGraphs: Sequence Similarity Graph Datasets","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DC cs.AR cs.CE cs.DM cs.PF","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Progress in High-Performance Computing in general, and High-Performance Graph\nProcessing in particular, is highly dependent on the availability of\npublicly-accessible, relevant, and realistic data sets.\n To ensure continuation of this progress, we (i) investigate and optimize the\nprocess of generating large sequence similarity graphs as an HPC challenge and\n(ii) demonstrate this process in creating MS-BioGraphs, a new family of\npublicly available real-world edge-weighted graph datasets with up to $2.5$\ntrillion edges, that is, $6.6$ times greater than the largest graph published\nrecently. The largest graph is created by matching (i.e., all-to-all similarity\naligning) $1.7$ billion protein sequences. The MS-BioGraphs family includes\nalso seven subgraphs with different sizes and direction types.\n We describe two main challenges we faced in generating large graph datasets\nand our solutions, that are, (i) optimizing data structures and algorithms for\nthis multi-step process and (ii) WebGraph parallel compression technique. We\npresent a comparative study of structural characteristics of MS-BioGraphs.\n The datasets are available online on\nhttps://blogs.qub.ac.uk/DIPSA/MS-BioGraphs .\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:04:28 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Esfahani","Mohsen Koohi",""],["Boldi","Paolo",""],["Vandierendonck","Hans",""],["Kilpatrick","Peter",""],["Vigna","Sebastiano",""]]}
+{"id":"2308.16745","submitter":"The ATLAS Collaboration","authors":"ATLAS Collaboration","title":"Measurements of longitudinal flow decorrelations in $pp$ and Xe+Xe\n collisions with the ATLAS detector","comments":"Comments: 31 pages in total, author list starting page 15, 5 figures,\n submitted to Phys. Rev. Lett. All figures including auxiliary figures are\n available at\n https://atlas.web.cern.ch/Atlas/GROUPS/PHYSICS/PAPERS/HION-2022-17/","journal-ref":null,"doi":null,"report-no":"CERN-EP-2023-184","categories":"nucl-ex hep-ex","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Measurements of longitudinal flow decorrelations in 13 TeV $pp$ and 5.44 TeV\nXe+Xe collisions with the ATLAS detector are presented. The measurements are\nperformed using the two-particle correlation method, combining charged-particle\ntracks within $|\\eta| < 2.5$ with either calorimeter energy clusters or towers\nwithin $4.0<|\\eta|<4.9$. A template-based subtraction procedure is used to\nremove non-flow effects in both the $pp$ and the Xe+Xe analyses. The dependence\nof the longitudinal flow decorrelations on the pseudorapidity separation\nbetween the particles is characterized via the slope parameter $F_n$ for the\nelliptic ($n=2$) and triangular ($n=3$) harmonic moments. The results are\nreported as a function of charged-particle multiplicity for the $pp$ and Xe+Xe\ncollision systems. Comparing the data to a color string-based model of the\ninitial geometry indicates that in $pp$ and peripheral Xe+Xe collisions,\nsub-nucleonic structure and fluctuations in longitudinal energy deposition are\nneeded to describe the data.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:06:05 GMT"}],"update_date":"2023-09-01","authors_parsed":[["ATLAS Collaboration","",""]]}
+{"id":"2308.16746","submitter":"Yuehua Su","authors":"Dezhong Cao and Yuehua Su","title":"Post-experiment coincidence counting method for coincidence detection\n techniques","comments":"5 pages, 1 figure","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.supr-con cond-mat.str-el","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Recently, two coincidence detection techniques, the coincidence\nangle-resolved photoemission spectroscopy (cARPES) and the coincidence\ninelastic neutron scattering (cINS), have been proposed to detect directly the\ntwo-body correlations of strongly correlated electrons in particle-particle\nchannel or two-spin channel. In the original proposals, there is a coincidence\ndetector which records the coincidence probability of two photoelectric\nprocesses or two neutron-scattering processes. In this article, we present a\n{\\it post-experiment} coincidence counting method for the proposed coincidence\ndetection techniques without a coincidence detector. It requires a\ntime-resolved {\\it pulse} photon or neutron source. Suppose $I_{d_1}^{(1)}$\nrecords the emitted photoelectron or the scattered neutron arrived at the\ndetector $D_1$ and similarly $I_{d_2}^{(1)}$ records the counting arrived at\nthe detector $D_2$ within one time window between sequential two incident\npulses. The coincidence counting can be defined by $I_d^{(2)}=I_{d_1}^{(1)}\n\\times I_{d_2}^{(1)}$, which records the coincidence probability of two\nphotoelectric processes or two neutron-scattering processes within this time\nwindow. Therefore, $I_d^{(2)}$ involves the two-body correlations of the target\nelectrons. The previously proposed cARPES and cINS can be implemented upon the\ntime-resolved angle-resolved photoemission spectroscopy (ARPES) and inelastic\nneutron scattering (INS) experimental apparatuses with pulse sources.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:06:23 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Cao","Dezhong",""],["Su","Yuehua",""]]}
+{"id":"2308.16747","submitter":"Gonzalo Garcia-Atance Fatjo PhD","authors":"Gonzalo Garcia-Atance Fatjo","title":"Prediction of ultrasonic cavitation with a dimensionless number, towards\n higher reproducibility","comments":"11 pages, 3538 words, 8 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.flu-dyn","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Ultrasonic cavitation is the formation of vapour cavities within a liquid due\nto the action of an ultrasound source. It is widely used for homogenization,\ndispersion, deagglomeration, erosion, cleaning, milling, emulsification,\nextraction, disintegration and sonochemistry. On the other hand, the so-called\ncavitation number is used to assess the likelihood of cavitation in fluid flows\nwithin a conduit or around a hydrofoil but it is not valid in ultrasonic\ncavitation since there is no fluid flow. A recently formulated number predicts\nthe cavitation in case of sudden accelerations. The tip surface of an\nultrasonic probe is subjected to a continuous repetition of alternating\naccelerations at high frequency. Therefore, the use of the recently formulated\nnumber in ultrasonic cavitation is explored here. Simulations of the ultrasonic\nprobe in water just at the condition of cavitation onset have been performed\nfor a combination of probe diameters from 0.2 to 100 mm and frequencies 20, 30,\n40, 100 and 1000 KHz. The recently formulated number is applied to these\ncombinations and it is found that can be used to predict ultrasonic cavitation.\nConsequently, the dimensionless number can be used to decide the conditions to\navoid or generate cavitation when a fluid is sonicated and to increase\nreproducibility in such conditions.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:06:25 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Fatjo","Gonzalo Garcia-Atance",""]]}
+{"id":"2308.16748","submitter":"Hanwen Kang","authors":"Yaoqiang Pan, Hao Cao, Kewei Hu, Hanwen Kang, Xing Wang","title":"A Novel Mapping and Navigation Framework for Robot Autonomy in Orchards","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.RO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Target detection is a basic task to divide the object types in the orchard\npoint cloud global map, which is used to count the overall situation of the\norchard. And provide necessary information for unmanned navigation planning of\nagricultural vehicles. In order to divide the fruit trees and the ground in the\npoint cloud global map of the standardized orchard, and provide the orchard\noverall information for the path planning of autonomous vehicles in the natural\norchard environment. A fruit tree detection method based on the Yolo-V7 network\nis proposed, which can effectively detect fruit tree targets from multi-sensor\nfused radar point cloud, reduce the 3D point cloud information of the point\ncloud map to 2D for the fruit tree point cloud in the Yolo-V7 network detection\nmap, and project the prediction results into the point cloud map. Generally,\nthe target detection network based on PointNet has the problem of low speed and\nlarge computational load. The method proposed in this paper is fast and low\ncomputational load and is suitable for deployment in mobile robots. From the\nexperimental results, the recall rate and accuracy rate of the proposed method\nin orchard fruit tree detection are 0.4 and 0.696 respectively, and its weight\nand reasoning time are 7.4 M and 28 ms respectively. The experimental results\nshow that this method can achieve the robustness and efficiency of real-time\ndetection of orchard fruit trees.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:10:00 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Pan","Yaoqiang",""],["Cao","Hao",""],["Hu","Kewei",""],["Kang","Hanwen",""],["Wang","Xing",""]]}
+{"id":"2308.16749","submitter":"Shengmao Zhu","authors":"Qingtao Chen, Kefeng Liu and Shengmao Zhu","title":"Cyclotomic expansions for double twist knots with an odd number of\n half-twists","comments":"19 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.GT math-ph math.MP math.QA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this note, we compute the cyclotomic expansion formula for colored Jones\npolynomial of double twist knots with an odd number of half-twists\n$\\mathcal{K}_{p,\\frac{s}{2}}$ by using the Kauffman bracket skein theory. It\nanswers a question proposed by Lovejoy and Osburn in 2019.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:10:19 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Chen","Qingtao",""],["Liu","Kefeng",""],["Zhu","Shengmao",""]]}
+{"id":"2308.16750","submitter":"Andrea Lucchini","authors":"Karmele Garatea Zaballa and Andrea Lucchini","title":"The non-two-primes graph of a finite group","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.GR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" To any finite group $G$, we may associate a graph whose vertices are the\nelements of $G$ and where two distinct vertices $x$ and $y$ are adjacent if and\nonly if the order of the subgroup $\\langle x, y\\rangle$ is divisible by at\nleast 3 distinct primes. We prove that the subgraph of this graph induced by\nthe non-isolated vertices is connected and has diameter at most 5.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:12:06 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zaballa","Karmele Garatea",""],["Lucchini","Andrea",""]]}
+{"id":"2308.16751","submitter":"Emilien Denoual","authors":"E. Denoual, L. Berg\\'e, X. Davoine, L. Gremillet","title":"Modeling terahertz emissions from energetic electrons and ions in foil\n targets irradiated by ultraintense femtosecond laser pulses","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.plasm-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Terahertz (THz) emissions from fast electron and ion currents driven in\nrelativistic, femtosecond laser-foil interactions are examined theoretically.\nWe first consider the radiation from the energetic electrons exiting the\nbackside of the target. Our kinetic model takes account of the coherent\ntransition radiation due to these electrons crossing the plasma-vacuum\ninterface as well as of the synchrotron radiation due to their deflection and\ndeceleration in the sheath field they set up in vacuum. After showing that both\nmechanisms tend to largely compensate each other when all the electrons are\npulled back into the target, we investigate the scaling of the net radiation\nwith the sheath field strength. We then demonstrate the sensitivity of this\nradiation to a percent-level fraction of escaping electrons. We also study the\ninfluence of the target thickness and laser focusing. The same sheath field\nthat confines most of the fast electrons around the target rapidly sets into\nmotion the surface ions. We describe the THz emission from these accelerated\nions and their accompanying hot electrons by means of a plasma expansion model\nthat allows for finite foil size and multidimensional effects. Again, we\nexplore the dependencies of this radiation mechanism on the laser-target\nparameters. Under conditions typical of current ultrashort laser-solid\nexperiments, we find that the THz radiation from the expanding plasma is much\nless energetic -- by one to three orders of magnitude -- than that due to the\nearly-time motion of the fast electrons.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:13:10 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Denoual","E.",""],["Berg\u00e9","L.",""],["Davoine","X.",""],["Gremillet","L.",""]]}
+{"id":"2308.16752","submitter":"Reza Mirzaeifard","authors":"Reza Mirzaeifard, Naveen K. D. Venkategowda, Alexander Jung, Stefan\n Werner","title":"Moreau Envelope ADMM for Decentralized Weakly Convex Optimization","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.OC cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This paper proposes a proximal variant of the alternating direction method of\nmultipliers (ADMM) for distributed optimization. Although the current versions\nof ADMM algorithm provide promising numerical results in producing solutions\nthat are close to optimal for many convex and non-convex optimization problems,\nit remains unclear if they can converge to a stationary point for weakly convex\nand locally non-smooth functions. Through our analysis using the Moreau\nenvelope function, we demonstrate that MADM can indeed converge to a stationary\npoint under mild conditions. Our analysis also includes computing the bounds on\nthe amount of change in the dual variable update step by relating the gradient\nof the Moreau envelope function to the proximal function. Furthermore, the\nresults of our numerical experiments indicate that our method is faster and\nmore robust than widely-used approaches.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:16:30 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Mirzaeifard","Reza",""],["Venkategowda","Naveen K. D.",""],["Jung","Alexander",""],["Werner","Stefan",""]]}
+{"id":"2308.16753","submitter":"Abhijit Anand","authors":"Abhijit Anand, Venktesh V, Vinay Setty, Avishek Anand","title":"Context Aware Query Rewriting for Text Rankers using LLM","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IR cs.AI","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" Query rewriting refers to an established family of approaches that are\napplied to underspecified and ambiguous queries to overcome the vocabulary\nmismatch problem in document ranking. Queries are typically rewritten during\nquery processing time for better query modelling for the downstream ranker.\nWith the advent of large-language models (LLMs), there have been initial\ninvestigations into using generative approaches to generate pseudo documents to\ntackle this inherent vocabulary gap. In this work, we analyze the utility of\nLLMs for improved query rewriting for text ranking tasks. We find that there\nare two inherent limitations of using LLMs as query re-writers -- concept drift\nwhen using only queries as prompts and large inference costs during query\nprocessing. We adopt a simple, yet surprisingly effective, approach called\ncontext aware query rewriting (CAR) to leverage the benefits of LLMs for query\nunderstanding. Firstly, we rewrite ambiguous training queries by context-aware\nprompting of LLMs, where we use only relevant documents as context.Unlike\nexisting approaches, we use LLM-based query rewriting only during the training\nphase. Eventually, a ranker is fine-tuned on the rewritten queries instead of\nthe original queries during training. In our extensive experiments, we find\nthat fine-tuning a ranker using re-written queries offers a significant\nimprovement of up to 33% on the passage ranking task and up to 28% on the\ndocument ranking task when compared to the baseline performance of using\noriginal queries.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:19:50 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Anand","Abhijit",""],["V","Venktesh",""],["Setty","Vinay",""],["Anand","Avishek",""]]}
+{"id":"2308.16754","submitter":"Eric Werneburg","authors":"Eric Arthur Werneburg","title":"Training Neural Networks Using Reproducing Kernel Space Interpolation\n and Model Reduction","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.FA cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We introduce and study the theory of training neural networks using\ninterpolation techniques from reproducing kernel Hilbert space theory. We\ngeneralize the method to Krein spaces, and show that widely-used neural network\narchitectures are subsets of reproducing kernel Krein spaces (RKKS). We study\nthe concept of \"associated Hilbert spaces\" of RKKS and develop techniques to\nimprove upon the expressivity of various activation functions. Next, using\nconcepts from the theory of functions of several complex variables, we prove a\ncomputationally applicable, multidimensional generalization of the celebrated\nAdamjan- Arov-Krein (AAK) theorem. The theorem yields a novel class of neural\nnetworks, called Prolongation Neural Networks (PNN). We demonstrate that, by\napplying the multidimensional AAK theorem to gain a PNN, one can gain\nperformance superior to both our interpolatory methods and current\nstate-of-the-art methods in noisy environments. We provide useful illustrations\nof our methods in practice.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:21:40 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Werneburg","Eric Arthur",""]]}
+{"id":"2308.16755","submitter":"Peng-Xiang Ma","authors":"Peng-Xiang Ma, Xu Feng, Mikhail Gorchtein, Lu-Chang Jin, Keh-Fei Liu,\n Chien-Yeah Seng, Bi-Geng Wang and Zhao-Long Zhang","title":"Lattice QCD Calculation of Electroweak Box Contributions to Superallowed\n Nuclear and Neutron Beta Decays","comments":"9 pages, 10 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-lat hep-ph nucl-ex","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We present the first lattice QCD calculation of the universal axial $\\gamma\nW$-box contribution $\\square_{\\gamma W}^{VA}$ to both superallowed nuclear and\nneutron beta decays. This contribution emerges as a significant component\nwithin the theoretical uncertainties surrounding the extraction of $|V_{ud}|$\nfrom superallowed decays. Our calculation is conducted using two domain wall\nfermion ensembles at the physical pion mass. To construct the nucleon 4-point\ncorrelation functions, we employ the random sparsening field technique.\nFurthermore, we incorporate long-distance contributions to the hadronic\nfunction using the infinite-volume reconstruction method. Upon performing the\ncontinuum extrapolation, we arrive at $\\square_{\\gamma\nW}^{VA}=3.65(8)_{\\mathrm{lat}}(1)_{\\mathrm{PT}}\\times10^{-3}$. Consequently,\nthis yields a slightly higher value of\n$|V_{ud}|=0.97386(11)_{\\mathrm{exp.}}(9)_{\\mathrm{RC}}(27)_{\\mathrm{NS}}$,\nreducing the previous $2.1\\sigma$ tension with the CKM unitarity to\n$1.8\\sigma$. Additionally, we calculate the vector $\\gamma W$-box contribution\nto the axial charge $g_A$, denoted as $\\square_{\\gamma W}^{VV}$, and explore\nits potential implications.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:22:07 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Ma","Peng-Xiang",""],["Feng","Xu",""],["Gorchtein","Mikhail",""],["Jin","Lu-Chang",""],["Liu","Keh-Fei",""],["Seng","Chien-Yeah",""],["Wang","Bi-Geng",""],["Zhang","Zhao-Long",""]]}
+{"id":"2308.16756","submitter":"John Robert Oakley","authors":"J. Robert Oakley","title":"Large volume fibered knots in 3-manifolds","comments":"9 pages, 5 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"math.GT","license":"http://creativecommons.org/publicdomain/zero/1.0/","abstract":" We prove that for hyperbolic fibered knots in any closed, connected, oriented\n3-manifold the volume and genus are unrelated. As an application we answer a\nquestion of Hirose, Kalfagianni, and Kin about volumes of mapping tori that are\ndouble branched covers.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:23:38 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Oakley","J. Robert",""]]}
+{"id":"2308.16757","submitter":"Fabian Coupette","authors":"Fabian Coupette and Tanja Schilling","title":"Universal Approach to Critical Percolation","comments":"8 pages, 5 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.stat-mech","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" Percolation problems appear in a large variety of different contexts ranging\nfrom the design of composite materials to vaccination strategies on community\nnetworks. The key observable for many applications is the percolation\nthreshold. Unlike the universal critical exponents, the percolation threshold\ndepends explicitly on the specific system properties. As a consequence,\ntheoretical approaches to the percolation threshold are rare and generally\ntailored to the specific application.\n Yet, any percolating cluster forms a discrete network the emergence of which\ncan be cast as a graph problem and analyzed using branching processes. We\npropose a general mapping of any kind of percolation problem onto a branching\nprocess which provides rigorous lower bounds of the percolation threshold.\nThese bounds progressively tighten as we incorporate more information into the\ntheory. We showcase our approach for different continuum problems finding\naccurate predictions with almost no effort. Our approach is based on first\nprinciples and does not require fitting parameters. As such it offers an\nimportant theoretical reference in a field that is dominated by simulation\nstudies and heuristic fit functions.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:26:02 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Coupette","Fabian",""],["Schilling","Tanja",""]]}
+{"id":"2308.16758","submitter":"Cuican Yu","authors":"Cuican Yu, Guansong Lu, Yihan Zeng, Jian Sun, Xiaodan Liang, Huibin\n Li, Zongben Xu, Songcen Xu, Wei Zhang, Hang Xu","title":"Towards High-Fidelity Text-Guided 3D Face Generation and Manipulation\n Using only Images","comments":"accepted by ICCV 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Generating 3D faces from textual descriptions has a multitude of\napplications, such as gaming, movie, and robotics. Recent progresses have\ndemonstrated the success of unconditional 3D face generation and text-to-3D\nshape generation. However, due to the limited text-3D face data pairs,\ntext-driven 3D face generation remains an open problem. In this paper, we\npropose a text-guided 3D faces generation method, refer as TG-3DFace, for\ngenerating realistic 3D faces using text guidance. Specifically, we adopt an\nunconditional 3D face generation framework and equip it with text conditions,\nwhich learns the text-guided 3D face generation with only text-2D face data. On\ntop of that, we propose two text-to-face cross-modal alignment techniques,\nincluding the global contrastive learning and the fine-grained alignment\nmodule, to facilitate high semantic consistency between generated 3D faces and\ninput texts. Besides, we present directional classifier guidance during the\ninference process, which encourages creativity for out-of-domain generations.\nCompared to the existing methods, TG-3DFace creates more realistic and\naesthetically pleasing 3D faces, boosting 9% multi-view consistency (MVIC) over\nLatent3D. The rendered face images generated by TG-3DFace achieve higher FID\nand CLIP score than text-to-2D face/image generation models, demonstrating our\nsuperiority in generating realistic and semantic-consistent textures.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:26:33 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Yu","Cuican",""],["Lu","Guansong",""],["Zeng","Yihan",""],["Sun","Jian",""],["Liang","Xiaodan",""],["Li","Huibin",""],["Xu","Zongben",""],["Xu","Songcen",""],["Zhang","Wei",""],["Xu","Hang",""]]}
+{"id":"2308.16759","submitter":"Zheng Xing","authors":"Zheng Xing and Junting Chen","title":"Constructing Indoor Region-based Radio Map without Location Labels","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG eess.SP","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Radio map construction requires a large amount of radio measurement data with\nlocation labels, which imposes a high deployment cost. This paper develops a\nregion-based radio map from received signal strength (RSS) measurements without\nlocation labels. The construction is based on a set of blindly collected RSS\nmeasurement data from a device that visits each region in an indoor area\nexactly once, where the footprints and timestamps are not recorded. The main\nchallenge is to cluster the RSS data and match clusters with the physical\nregions. Classical clustering algorithms fail to work as the RSS data naturally\nappears as non-clustered due to multipaths and noise. In this paper, a signal\nsubspace model with a sequential prior is constructed for the RSS data, and an\nintegrated segmentation and clustering algorithm is developed, which is shown\nto find the globally optimal solution in a special case. Furthermore, the\nclustered data is matched with the physical regions using a graph-based\napproach. Based on real measurements from an office space, the proposed scheme\nreduces the region localization error by roughly 50% compared to a weighted\ncentroid localization (WCL) baseline, and it even outperforms some supervised\nlocalization schemes, including k-nearest neighbor (KNN), support vector\nmachine (SVM), and deep neural network (DNN), which require labeled data for\ntraining.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:27:36 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Xing","Zheng",""],["Chen","Junting",""]]}
+{"id":"2308.16760","submitter":"Aiguo Xu Prof. Dr.","authors":"Aiguo Xu","title":"Brief introduction to discrete Boltzmann modeling and analysis method","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.stat-mech","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We briefly introduce several fundamental problems that cause the creation of\nDiscrete Boltzmann modeling and analysis Method(DBM), corresponding solutions,\nthe relationship and difference between DBM and traditional fluid modeling and\nother kinetic methods, and some applications of DBM and\ndiscrete/non-equilibrium effects.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:28:06 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Xu","Aiguo",""]]}
+{"id":"2308.16761","submitter":"Qijiong Liu","authors":"Qijiong Liu, Jiaren Xiao, Lu Fan, Jieming Zhu, Xiao-Ming Wu","title":"Co-evolving Vector Quantization for ID-based Recommendation","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Category information plays a crucial role in enhancing the quality and\npersonalization of recommendations. Nevertheless, the availability of item\ncategory information is not consistently present, particularly in the context\nof ID-based recommendations. In this work, we propose an alternative approach\nto automatically learn and generate entity (i.e., user and item) categorical\ninformation at different levels of granularity, specifically for ID-based\nrecommendation. Specifically, we devise a co-evolving vector quantization\nframework, namely COVE, which enables the simultaneous learning and refinement\nof code representation and entity embedding in an end-to-end manner, starting\nfrom the randomly initialized states. With its high adaptability, COVE can be\neasily integrated into existing recommendation models. We validate the\neffectiveness of COVE on various recommendation tasks including list\ncompletion, collaborative filtering, and click-through rate prediction, across\ndifferent recommendation models. We will publish the code and data for other\nresearchers to reproduce our work.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:29:10 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Liu","Qijiong",""],["Xiao","Jiaren",""],["Fan","Lu",""],["Zhu","Jieming",""],["Wu","Xiao-Ming",""]]}
+{"id":"2308.16762","submitter":"Yunfeng Liang","authors":"Ji-Gui Cheng, Yun-Feng Liang and En-Wei Liang","title":"Search for the gamma-ray spectral lines with the DAMPE and the Fermi-LAT\n observations","comments":"14 pages, 10 figures. Accepted for publication in PRD","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.HE","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Weakly interacting massive particles, as a major candidate of dark matter\n(DM), may directly annihilate or decay into high-energy photons, producing\nmonochromatic spectral lines in the gamma-ray band. These spectral lines, if\ndetected, are smoking-gun signatures for the existence of new physics. Using\nthe 5 years of DAMPE and 13 years of Fermi-LAT data, we search for line-like\nsignals in the energy range of 3 GeV to 1 TeV from the Galactic halo. Different\nregions of interest are considered to accommodate different DM density\nprofiles. We do not find any significant line structure, and the previously\nreported line-like feature at $\\sim$133 GeV is also not detected in our\nanalysis. Adopting a local DM density of $\\rho_{\\rm local}=0.4\\,{\\rm\nGeV\\,cm^{-3}}$, we derive 95% confidence level constraints on the\nvelocity-averaged cross-section of $\\langle{\\sigma v}\\rangle_{\\gamma\\gamma}\n\\lesssim 4 \\times 10^{-28}\\,{\\rm cm^{3}\\,s^{-1}}$ and the decay lifetime of\n$\\tau_{\\gamma\\nu} \\gtrsim 5 \\times 10^{29}\\,{\\rm s}$ at 100 GeV, achieving the\nstrongest constraints to date for the line energies of 6-660 GeV. The\nimprovement stems from the longer Fermi-LAT data set used and the inclusion of\nDAMPE data in the analysis. The simultaneous use of two independent data sets\ncould also reduce the systematic uncertainty of the search.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:30:19 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Cheng","Ji-Gui",""],["Liang","Yun-Feng",""],["Liang","En-Wei",""]]}
+{"id":"2308.16763","submitter":"Kairui Hu Mr","authors":"Kairui Hu, Ming Yan, Joey Tianyi Zhou, Ivor W. Tsang, Wen Haw Chong,\n Yong Keong Yap","title":"Ladder-of-Thought: Using Knowledge as Steps to Elevate Stance Detection","comments":"5 pages, 2 figures, 2 tables","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL cs.AI","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Chain-of-Thought Prompting (CoT) reinforces the reasoning capabilities of\nLarge Language Models (LLMs) through the generation of intermediate rationales.\nHowever, these enhancements predominantly benefit large-scale models, leaving\nsmall LMs without significant performance improvements when directly applying\nCoT. Despite the advanced reasoning capabilities of LLMs, CoT relies primarily\non their pre-trained internal knowledge. The external knowledge that is\npreviously unknown to the model remains unexploited. This omission becomes\npronounced in tasks such as stance detection, where the external background\nknowledge plays a pivotal role. Additionally, the large-scale architecture of\nLLMs inevitably present efficiency challenges during deployment. To address\nthese challenges, we introduce the Ladder-of-Thought (LoT) for stance\ndetection. Grounded in a dual-phase Cascaded Optimization framework, LoT\ndirects the model to incorporate high-quality external knowledge, enhancing the\nintermediate rationales it generates. These bolstered rationales subsequently\nserve as the foundation for more precise predictions - akin to how a ladder\nfacilitates reaching elevated goals. LoT achieves a balance between efficiency\nand accuracy, making it an adaptable and efficient framework for stance\ndetection. Our empirical evaluations underscore LoT's effectiveness, marking a\n16% improvement over ChatGPT and a 10% enhancement compared to ChatGPT with\nCoT.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:31:48 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Hu","Kairui",""],["Yan","Ming",""],["Zhou","Joey Tianyi",""],["Tsang","Ivor W.",""],["Chong","Wen Haw",""],["Yap","Yong Keong",""]]}
+{"id":"2308.16764","submitter":"Pietro Conzinu","authors":"Denis Bitnaya, Pietro Conzinu and Giovanni Marozzi","title":"On the stability of string-hole gas","comments":"17 pages, 1 figure","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-th astro-ph.CO gr-qc","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Focusing on a string-hole gas within the pre-big bang scenario, we study the\nstability of its solutions in the phase space. We firstly extend the analysis\npresent in the literature relaxing the ideal-gas properties of the string-hole\ngas, taking into account a (bulk-)viscosity term. Then we consider the case of\na theory described by a complete O(d,d)-invariant action up to all orders in\n$\\alpha^{\\prime}$-corrections (the Hohm-Zwiebach action), studying the\nstability of the string-hole gas solution with or without the introduction of\nthe viscosity term. Furthermore, the bulk viscosity is also considered for two\ndifferent first order $\\alpha^{\\prime}$-corrected actions: the\nGasperini-Maggiore-Veneziano-action and the Meissner-action. The results\nobtained show how the viscosity can help to stabilize the string-hole gas\nsolution, obtaining constraints on the equation of state of the gas.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:33:11 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Bitnaya","Denis",""],["Conzinu","Pietro",""],["Marozzi","Giovanni",""]]}
+{"id":"2308.16765","submitter":"Carlos E. Arreche","authors":"Carlos E. Arreche and Yi Zhang","title":"Twisted Mahler discrete residues","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.NT math.AC","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Recently we constructed Mahler discrete residues for rational functions and\nshowed they comprise a complete obstruction to the Mahler summability problem\nof deciding whether a given rational function $f(x)$ is of the form\n$g(x^p)-g(x)$ for some rational function $g(x)$ and an integer $p > 1$. Here we\ndevelop a notion of $\\lambda$-twisted Mahler discrete residues for\n$\\lambda\\in\\mathbb{Z}$, and show that they similarly comprise a complete\nobstruction to the twisted Mahler summability problem of deciding whether a\ngiven rational function $f(x)$ is of the form $p^\\lambda g(x^p)-g(x)$ for some\nrational function $g(x)$ and an integer $p>1$. We provide some initial\napplications of twisted Mahler discrete residues to differential creative\ntelescoping problems for Mahler functions and to the differential Galois theory\nof linear Mahler equations.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:38:36 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Arreche","Carlos E.",""],["Zhang","Yi",""]]}
+{"id":"2308.16766","submitter":"Sydney Mason","authors":"Sydney Mason and Ileana-Cristina Benea-Chelmus","title":"Hybrid silicon-organic Huygens' metasurface for phase modulation","comments":"10 pages, 5 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.optics physics.app-ph","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Spatial light modulators have desirable applications in sensing and free\nspace communication because they create an interface between the optical and\nelectronic realms. Electro-optic modulators allow for high-speed intensity\nmanipulation of an electromagnetic wavefront. However, most surfaces of this\nsort pose limitations due to their ability to modulate intensity rather than\nphase. Here we investigate an electro-optic modulator formed from a\nsilicon-organic Huygens' metasurface. In a simulation-based study, we discover\na metasurface design immersed in high-performance electro-optic molecules that\ncan achieve near-full resonant transmission with phase coverage over the full\n2$\\pi$ range. Through the electro-optic effect, we show 140$^\\circ$ (0.79$\\pi$)\nmodulation over a range of -100 to 100 V at 1330 nm while maintaining\nnear-constant transmitted field intensity (between 0.66 and 0.8). These results\npotentiate the fabrication of a high-speed spatial light modulator with the\nresolved parameters.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:40:40 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Mason","Sydney",""],["Benea-Chelmus","Ileana-Cristina",""]]}
+{"id":"2308.16767","submitter":"Markus Postl","authors":"Florian Thaler (1), Franz Rammerstorfer (1), Jon Ander Gomez (2), Raul\n Garcia Crespo (2), Leticia Pasqual (2) and Markus Postl (1) ((1) Virtual\n Vehicle Research GmbH, (2) Solver Intelligent Analytics)","title":"Reinforcement learning for safety-critical control of an automated\n vehicle","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.RO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We present our approach for the development, validation and deployment of a\ndata-driven decision-making function for the automated control of a vehicle.\nThe decisionmaking function, based on an artificial neural network is trained\nto steer the mobile robot SPIDER towards a predefined, static path to a target\npoint while avoiding collisions with obstacles along the path. The training is\nconducted by means of proximal policy optimisation (PPO), a state of the art\nalgorithm from the field of reinforcement learning. The resulting controller is\nvalidated using KPIs quantifying its capability to follow a given path and its\nreactivity on perceived obstacles along the path. The corresponding tests are\ncarried out in the training environment. Additionally, the tests shall be\nperformed as well in the robotics situation Gazebo and in real world scenarios.\nFor the latter the controller is deployed on a FPGA-based development platform,\nthe FRACTAL platform, and integrated into the SPIDER software stack.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:41:38 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Thaler","Florian",""],["Rammerstorfer","Franz",""],["Gomez","Jon Ander",""],["Crespo","Raul Garcia",""],["Pasqual","Leticia",""],["Postl","Markus",""]]}
+{"id":"2308.16768","submitter":"Bahar Bidaran","authors":"Bahar Bidaran, Francesco La Barbera, Anna Pasquali, Glenn van de Ven,\n Reynier Peletier, Jesus Falc\\'on-Barroso, Dimitri A. Gadotti, Agnieszka\n Sybilska, Eva K. Grebel","title":"On the accretion of a new group of galaxies onto Virgo: III. The stellar\n population radial gradients of dEs","comments":"18 pages, 8 figures, accepted in MNRAS","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Using MUSE data, we investigate the radial gradients of stellar population\nproperties (namely age, [M/H], and the abundance ratio of $\\alpha$ elements\n[$\\alpha$/Fe]) for a sample of nine dwarf early-type (dE) galaxies with\nlog(M$_{\\star}$/M$_{\\odot}$) $\\sim$ 9.0 and an infall time onto the Virgo\ncluster of 2-3Gyr ago. We followed a similar approach as in Bidaran et al.\n(2022) to derive their stellar population properties and star formation\nhistories (SFHs) through fitting observed spectral indices and full spectral\nfitting, respectively. We find that these nine dE galaxies have truncated\n[Mg/Fe]vs.[Fe/H] profiles than equally-massive Virgo dE galaxies with longer\npast infall times. Short profiles of three dE galaxies are the result of their\nintense star formation which has been quenched long before their accretion onto\nthe Virgo cluster, possibly as a result of their group environment. In the\nremaining six dE galaxies, profiles mainly trace a recent episode of star burst\nwithin 0.4R$_{\\rm e}$ which results in higher light-weighted [$\\alpha$/Fe]\nvalues. The latter SFH peak can be due to ram pressure exerted by the Virgo\ncluster at the time of the accretion of the dE galaxies. Also, we show that\nyounger, more metal-rich and less $\\alpha$-enhanced stellar populations\ndominate their inner regions (i.e., < 0.4R$_{\\rm e}$) resulting in mainly flat\n$\\nabla_{\\rm age}$, negative $\\nabla_{\\rm [M/H]}$ and positive $\\nabla_{\\rm\n[\\alpha/Fe]}$. We find that with increasing log($\\sigma_{\\rm Re}$) of dE\ngalaxies, $\\nabla_{\\rm age}$ and $\\nabla_{\\rm [\\alpha/Fe]}$ flatten, and the\nlatter correlation persists even after including early-type galaxies up to\nlog($\\sigma_{\\rm Re}$ $\\sim$ 2.5), possibly due to the more extended star\nformation activity in the inner regions of dEs, as opposed to more massive\nearly-type galaxies.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:44:06 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Bidaran","Bahar",""],["La Barbera","Francesco",""],["Pasquali","Anna",""],["van de Ven","Glenn",""],["Peletier","Reynier",""],["Falc\u00f3n-Barroso","Jesus",""],["Gadotti","Dimitri A.",""],["Sybilska","Agnieszka",""],["Grebel","Eva K.",""]]}
+{"id":"2308.16769","submitter":"Qin Lin","authors":"Colman McGuan, Chansu Yu, Qin Lin","title":"Towards Low-Barrier Cybersecurity Research and Education for Industrial\n Control Systems","comments":"accepted to the 20th Annual IEEE International Conference on\n Intelligence and Security Informatics (ISI)","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CR cs.AI","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" The protection of Industrial Control Systems (ICS) that are employed in\npublic critical infrastructures is of utmost importance due to catastrophic\nphysical damages cyberattacks may cause. The research community requires\ntestbeds for validation and comparing various intrusion detection algorithms to\nprotect ICS. However, there exist high barriers to entry for research and\neducation in the ICS cybersecurity domain due to expensive hardware, software,\nand inherent dangers of manipulating real-world systems. To close the gap,\nbuilt upon recently developed 3D high-fidelity simulators, we further showcase\nour integrated framework to automatically launch cyberattacks, collect data,\ntrain machine learning models, and evaluate for practical chemical and\nmanufacturing processes. On our testbed, we validate our proposed intrusion\ndetection model called Minimal Threshold and Window SVM (MinTWin SVM) that\nutilizes unsupervised machine learning via a one-class SVM in combination with\na sliding window and classification threshold. Results show that MinTWin SVM\nminimizes false positives and is responsive to physical process anomalies.\nFurthermore, we incorporate our framework with ICS cybersecurity education by\nusing our dataset in an undergraduate machine learning course where students\ngain hands-on experience in practicing machine learning theory with a practical\nICS dataset. All of our implementations have been open-sourced.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:46:05 GMT"}],"update_date":"2023-09-01","authors_parsed":[["McGuan","Colman",""],["Yu","Chansu",""],["Lin","Qin",""]]}
+{"id":"2308.16770","submitter":"David Graus","authors":"Jarno Vrolijk and David Graus","title":"Enhancing PLM Performance on Labour Market Tasks via Instruction-based\n Finetuning and Prompt-tuning with Rules","comments":"accepted for publication at RecSys in HR 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The increased digitization of the labour market has given researchers,\neducators, and companies the means to analyze and better understand the labour\nmarket. However, labour market resources, although available in high volumes,\ntend to be unstructured, and as such, research towards methodologies for the\nidentification, linking, and extraction of entities becomes more and more\nimportant. Against the backdrop of this quest for better labour market\nrepresentations, resource constraints and the unavailability of large-scale\nannotated data cause a reliance on human domain experts. We demonstrate the\neffectiveness of prompt-based tuning of pre-trained language models (PLM) in\nlabour market specific applications. Our results indicate that cost-efficient\nmethods such as PTR and instruction tuning without exemplars can significantly\nincrease the performance of PLMs on downstream labour market applications\nwithout introducing additional model layers, manual annotations, and data\naugmentation.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:47:00 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Vrolijk","Jarno",""],["Graus","David",""]]}
+{"id":"2308.16771","submitter":"Rick Steinert","authors":"Rick Steinert, Saskia Altmann","title":"Linking microblogging sentiments to stock price movement: An application\n of GPT-4","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"q-fin.ST q-fin.CP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This paper investigates the potential improvement of the GPT-4 Language\nLearning Model (LLM) in comparison to BERT for modeling same-day daily stock\nprice movements of Apple and Tesla in 2017, based on sentiment analysis of\nmicroblogging messages. We recorded daily adjusted closing prices and\ntranslated them into up-down movements. Sentiment for each day was extracted\nfrom messages on the Stocktwits platform using both LLMs. We develop a novel\nmethod to engineer a comprehensive prompt for contextual sentiment analysis\nwhich unlocks the true capabilities of modern LLM. This enables us to carefully\nretrieve sentiments, perceived advantages or disadvantages, and the relevance\ntowards the analyzed company. Logistic regression is used to evaluate whether\nthe extracted message contents reflect stock price movements. As a result,\nGPT-4 exhibited substantial accuracy, outperforming BERT in five out of six\nmonths and substantially exceeding a naive buy-and-hold strategy, reaching a\npeak accuracy of 71.47 % in May. The study also highlights the importance of\nprompt engineering in obtaining desired outputs from GPT-4's contextual\nabilities. However, the costs of deploying GPT-4 and the need for fine-tuning\nprompts highlight some practical considerations for its use.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:49:26 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Steinert","Rick",""],["Altmann","Saskia",""]]}
+{"id":"2308.16772","submitter":"Srdjan Ostojic","authors":"Srdjan Ostojic and Stefano Fusi","title":"The computational role of structure in neural activity and connectivity","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"q-bio.NC","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" One major challenge of neuroscience is finding interesting structures in a\nseemingly disorganized neural activity. Often these structures have\ncomputational implications that help to understand the functional role of a\nparticular brain area. Here we outline a unified approach to characterize these\nstructures by inspecting the representational geometry and the modularity\nproperties of the recorded activity, and show that this approach can also\nreveal structures in connectivity. We start by setting up a general framework\nfor determining geometry and modularity in activity and connectivity and\nrelating these properties with computations performed by the network. We then\nuse this framework to review the types of structure found in recent works on\nmodel networks performing three classes of computations.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:49:49 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Ostojic","Srdjan",""],["Fusi","Stefano",""]]}
+{"id":"2308.16773","submitter":"Andreas Morr","authors":"Andreas Morr, Keno Riechers, Leonardo Rydin Gorj\\~ao, Niklas Boers","title":"Anticipating critical transitions in multi-dimensional systems driven by\n time- and state-dependent noise","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.DS","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" The anticipation of bifurcation-induced transitions in dynamical systems has\ngained relevance in various fields of the natural, social, and economic\nsciences. When approaching a co-dimension 1 bifurcation, the feedbacks that\nstabilise the initial state weaken and eventually vanish; a process referred to\nas critical slowing down (CSD). This motivates the use of variance and lag-1\nautocorrelation as indicators of CSD. Both indicators rely on linearising the\nsystem's restoring rate. Additionally, the use of variance is limited to time-\nand state-independent driving noise, strongly constraining the generality of\nCSD. Here, we propose a data-driven approach based on deriving a Langevin\nequation to detect local stability changes and anticipate bifurcation-induced\ntransitions in systems with generally time- and state-dependent noise. Our\napproach substantially generalizes the conditions underlying existing early\nwarning indicators, which we showcase in different examples. Changes in\ndeterministic dynamics can be clearly discriminated from changes in the driving\nnoise. This reduces the risk of false and missed alarms of conventional CSD\nindicators significantly in settings with time-dependent or multiplicative\nnoise. In multi-dimensional systems, our method can greatly advance the\nunderstanding of the coupling between system components and can avoid risks of\nmissing CSD due to dimension reduction, which existing approaches suffer from.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:50:24 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Morr","Andreas",""],["Riechers","Keno",""],["Gorj\u00e3o","Leonardo Rydin",""],["Boers","Niklas",""]]}
+{"id":"2308.16774","submitter":"Antonio Mastropaolo","authors":"Antonio Mastropaolo, Fiorella Zampetti, Massimiliano Di Penta,\n Gabriele Bavota","title":"Toward Automatically Completing GitHub Workflows","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SE","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Continuous integration and delivery (CI/CD) are nowadays at the core of\nsoftware development. Their benefits come at the cost of setting up and\nmaintaining the CI/CD pipeline, which requires knowledge and skills often\northogonal to those entailed in other software-related tasks. While several\nrecommender systems have been proposed to support developers across a variety\nof tasks, little automated support is available when it comes to setting up and\nmaintaining CI/CD pipelines. We present GH-WCOM (GitHub Workflow COMpletion), a\nTransformer-based approach supporting developers in writing a specific type of\nCI/CD pipelines, namely GitHub workflows. To deal with such a task, we designed\nan abstraction process to help the learning of the transformer while still\nmaking GH-WCOM able to recommend very peculiar workflow elements such as tool\noptions and scripting elements. Our empirical study shows that GH-WCOM provides\nup to 34.23% correct predictions, and the model's confidence is a reliable\nproxy for the recommendations' correctness likelihood.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:53:00 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Mastropaolo","Antonio",""],["Zampetti","Fiorella",""],["Di Penta","Massimiliano",""],["Bavota","Gabriele",""]]}
+{"id":"2308.16775","submitter":"Nhat Minh Le","authors":"Minh Le, Nhan Nguyen, and Ngoc Hoang Luong","title":"Efficacy of Neural Prediction-Based NAS for Zero-Shot NAS Paradigm","comments":"12 pages, 6 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In prediction-based Neural Architecture Search (NAS), performance indicators\nderived from graph convolutional networks have shown significant success. These\nindicators, achieved by representing feed-forward structures as component\ngraphs through one-hot encoding, face a limitation: their inability to evaluate\narchitecture performance across varying search spaces. In contrast, handcrafted\nperformance indicators (zero-shot NAS), which use the same architecture with\nrandom initialization, can generalize across multiple search spaces. Addressing\nthis limitation, we propose a novel approach for zero-shot NAS using deep\nlearning. Our method employs Fourier sum of sines encoding for convolutional\nkernels, enabling the construction of a computational feed-forward graph with a\nstructure similar to the architecture under evaluation. These encodings are\nlearnable and offer a comprehensive view of the architecture's topological\ninformation. An accompanying multi-layer perceptron (MLP) then ranks these\narchitectures based on their encodings. Experimental results show that our\napproach surpasses previous methods using graph convolutional networks in terms\nof correlation on the NAS-Bench-201 dataset and exhibits a higher convergence\nrate. Moreover, our extracted feature representation trained on each\nNAS-Benchmark is transferable to other NAS-Benchmarks, showing promising\ngeneralizability across multiple search spaces. The code is available at:\nhttps://github.com/minh1409/DFT-NPZS-NAS\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:54:06 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Le","Minh",""],["Nguyen","Nhan",""],["Luong","Ngoc Hoang",""]]}
+{"id":"2308.16776","submitter":"Xiaorang Guo","authors":"Xiaorang Guo, Kun Qin and Martin Schulz","title":"HiSEP-Q: A Highly Scalable and Efficient Quantum Control Processor for\n Superconducting Qubits","comments":"The paper is accepted by the 41st IEEE International Conference on\n Computer Design (ICCD), 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Quantum computing promises an effective way to solve targeted problems that\nare classically intractable. Among them, quantum computers built with\nsuperconducting qubits are considered one of the most advanced technologies,\nbut they suffer from short coherence times. This can get exaggerated when they\nare controlled directly by general-purpose host machines, which leads to the\nloss of quantum information. To mitigate this, we need quantum control\nprocessors (QCPs) positioned between quantum processing units and host machines\nto reduce latencies. However, existing QCPs are built on top of designs with no\nor inefficient scalability, requiring a large number of instructions when\nscaling to more qubits. In addition, interactions between current QCPs and host\nmachines require frequent data transmissions and offline computations to obtain\nfinal results, which limits the performance of quantum computers.\n In this paper, we propose a QCP called HiSEP-Q featuring a novel quantum\ninstruction set architecture (QISA) and its microarchitecture implementation.\nFor efficient control, we utilize mixed-type addressing modes and mixed-length\ninstructions in HiSEP-Q, which provides an efficient way to concurrently\naddress more than 100 qubits. Further, for efficient read-out and analysis, we\ndevelop a novel onboard accumulation and sorting unit, which eliminates the\ndata transmission of raw data between the QCPs and host machines and enables\nreal-time result processing. Compared to the state-of-the-art, our proposed\nQISA achieves at least 62% and 28% improvements in encoding efficiency with\nreal and synthetic quantum circuits, respectively. We also validate the\nmicroarchitecture on a field-programmable gate array, which exhibits low power\nand resource consumption. Both hardware and ISA evaluations demonstrate that\nHiSEP-Q features high scalability and efficiency toward the number of\ncontrolled qubits.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:54:40 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Guo","Xiaorang",""],["Qin","Kun",""],["Schulz","Martin",""]]}
+{"id":"2308.16777","submitter":"Minheng Ni","authors":"Minheng Ni, Yabo Zhang, Kailai Feng, Xiaoming Li, Yiwen Guo, Wangmeng\n Zuo","title":"Ref-Diff: Zero-shot Referring Image Segmentation with Generative Models","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" Zero-shot referring image segmentation is a challenging task because it aims\nto find an instance segmentation mask based on the given referring\ndescriptions, without training on this type of paired data. Current zero-shot\nmethods mainly focus on using pre-trained discriminative models (e.g., CLIP).\nHowever, we have observed that generative models (e.g., Stable Diffusion) have\npotentially understood the relationships between various visual elements and\ntext descriptions, which are rarely investigated in this task. In this work, we\nintroduce a novel Referring Diffusional segmentor (Ref-Diff) for this task,\nwhich leverages the fine-grained multi-modal information from generative\nmodels. We demonstrate that without a proposal generator, a generative model\nalone can achieve comparable performance to existing SOTA weakly-supervised\nmodels. When we combine both generative and discriminative models, our Ref-Diff\noutperforms these competing methods by a significant margin. This indicates\nthat generative models are also beneficial for this task and can complement\ndiscriminative models for better referring segmentation. Our code is publicly\navailable at https://github.com/kodenii/Ref-Diff.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:55:30 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Ni","Minheng",""],["Zhang","Yabo",""],["Feng","Kailai",""],["Li","Xiaoming",""],["Guo","Yiwen",""],["Zuo","Wangmeng",""]]}
+{"id":"2308.16778","submitter":"Jacob Fronk","authors":"Jacob Fronk, Torben Kr\\\"uger, and Yuriy Nemish","title":"Norm Convergence Rate for Multivariate Quadratic Polynomials of Wigner\n Matrices","comments":"38 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.PR math-ph math.FA math.MP math.OA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We study Hermitian non-commutative quadratic polynomials of multiple\nindependent Wigner matrices. We prove that, with the exception of some specific\nreducible cases, the limiting spectral density of the polynomials always has a\nsquare root growth at its edges and prove an optimal local law around these\nedges. Combining these two results, we establish that, as the dimension $N$ of\nthe matrices grows to infinity, the operator norm of such polynomials $q$\nconverges to a deterministic limit with a rate of convergence of\n$N^{-2/3+o(1)}$. Here, the exponent in the rate of convergence is optimal. For\nthe specific reducible cases, we also provide a classification of all possible\nedge behaviours.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:56:05 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Fronk","Jacob",""],["Kr\u00fcger","Torben",""],["Nemish","Yuriy",""]]}
+{"id":"2308.16779","submitter":"Caterina Cocchi","authors":"Hanen Hamdi, Jannis Krumland, Ana M. Valencia, Carlos-Andres Palma,\n and Caterina Cocchi","title":"Interlayer vibrational hybrid normal mode enabling molecular chiral\n phonons","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mtrl-sci","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Organic/inorganic interfaces formed by monolayer substrates and conjugated\nmolecular adsorbates are attractive material platforms leveraging the\nmodularity of organic compounds together with the long-range phenomena typical\nof condensed matter. New quantum states are known to be generated by electronic\ninteractions in these systems as well as by their coupling with light. However,\nlittle is still known about hybrid vibrational modes. In this work, we discover\nfrom first principles the existence of an infrared-active chiral phonon mode in\na pyrene-decorated MoSe$_{2}$ monolayer given by the combination of a\nfrustrated rotation of the molecule around its central axis and an optical mode\nin the substrate. Our results suggest the possibility to enable phonon\nchirality in molecular superlattices.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:57:10 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Hamdi","Hanen",""],["Krumland","Jannis",""],["Valencia","Ana M.",""],["Palma","Carlos-Andres",""],["Cocchi","Caterina",""]]}
+{"id":"2308.16780","submitter":"Ailing Wang","authors":"Ailing Wang, Tao An, Yingkang Zhang, Xiaopeng Cheng, Luis C. Ho,\n Kenneth I. Kellermann, Willem A. Baan","title":"VLBI Observations of a sample of Palomar-Green quasars II:\n characterising the parsec-scale radio emission","comments":"This paper has been accepted by MNRAS","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.GA astro-ph.HE","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This study uses multi-frequency Very Long Baseline Interferometry (VLBI) to\nstudy the radio emission from 10 radio-quiet quasars (RQQs) and four radio-loud\nquasars (RLQs). The diverse morphologies, radio spectra, and brightness\ntemperatures observed in the VLBI images of these RQQs, together with the\nvariability in their GHz spectra and VLBI flux densities, shed light on the\norigins of their nuclear radio emission. The total radio emission of RQQs\nappears to originate from non-thermal synchrotron radiation due to a\ncombination of active galactic nuclei and star formation activities. However,\nour data suggest that the VLBI-detected radio emission from these RQQs is\nprimarily associated with compact jets or corona, with extended emissions such\nas star formation and large-scale jets being resolved by the high resolution of\nthe VLBI images. Wind emission models are not in complete agreement the VLBI\nobservations. Unlike RLQs, where the parsec-scale radio emission is dominated\nby a relativistically boosted core, the radio cores of RQQs are either not\ndominant or are mixed with significant jet emission. RQQs with compact cores or\ncore-jet structures typically have more pronounced variability, with flat or\ninverted spectra, whereas jet-dominated RQQs have steep spectra and\nunremarkable variability. Future high-resolution observations of more RQQs\ncould help to determine the fraction of different emission sources and their\nassociated physical mechanisms.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:58:50 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Wang","Ailing",""],["An","Tao",""],["Zhang","Yingkang",""],["Cheng","Xiaopeng",""],["Ho","Luis C.",""],["Kellermann","Kenneth I.",""],["Baan","Willem A.",""]]}
+{"id":"2308.16781","submitter":"Xiang Li","authors":"Xiang Li","title":"StratMed: Relevance Stratification for Low-resource Medication\n Recommendation","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AI cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" With the growing imbalance between limited medical resources and escalating\ndemands, AI-based clinical tasks have become paramount. Medication\nrecommendation, as a sub-domain, aims to amalgamate longitudinal patient\nhistory with medical knowledge, assisting physicians in prescribing safer and\nmore accurate medication combinations. Existing methods overlook the inherent\nlong-tail distribution in medical data, lacking balanced representation between\nhead and tail data, which leads to sub-optimal model performance. To address\nthis challenge, we introduce StratMed, a model that incorporates an innovative\nrelevance stratification mechanism. It harmonizes discrepancies in data\nlong-tail distribution and strikes a balance between the safety and accuracy of\nmedication combinations. Specifically, we first construct a pre-training method\nusing deep learning networks to obtain entity representation. After that, we\ndesign a pyramid-like data stratification method to obtain more generalized\nentity relationships by reinforcing the features of unpopular entities. Based\non this relationship, we designed two graph structures to express medication\nprecision and safety at the same level to obtain visit representations.\nFinally, the patient's historical clinical information is fitted to generate\nmedication combinations for the current health condition. Experiments on the\nMIMIC-III dataset demonstrate that our method has outperformed current\nstate-of-the-art methods in four evaluation metrics (including safety and\naccuracy).\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 14:59:32 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Li","Xiang",""]]}
+{"id":"2308.16782","submitter":"Jiang Zeng","authors":"Ming-Jian Ding, Jiang Zeng","title":"Some new results on Minuscule polynomial of type A","comments":"12 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Bourn and Erickson (arXiv:2307.02652) recently studied a polynomial $N_n(x)$\nconnecting the earth mover's distance to minuscule lattices of Type A, coined\nMinuscule polynomial of type A in this paper. They proved that this polynomial\nis palindromic and unimodal, and conjectured its real-rootedness as well as a\nremarkable formula when $x=1$. In this paper, we shall confirm these\nconjectures and further prove that the coefficients are asymptotically normal\nand the coefficient matrix of $N_n(x)$ is totally positive.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:00:44 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Ding","Ming-Jian",""],["Zeng","Jiang",""]]}
+{"id":"2308.16783","submitter":"Lie-Wen Chen","authors":"Zheng Cao, Lie-Wen Chen","title":"Neutron Star vs Quark Star in the Multimessenger Era","comments":"6 pages, 2 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.HE hep-ph nucl-ex nucl-th","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Neutron stars (NSs) which could contain exotic degrees of freedom in the core\nand the self-bound quark stars (QSs) made purely of absolutely stable\ndeconfined quark matter are still two main candidates for the compact objects\nobserved in pulsars and gravitational wave (GW) events in binary star mergers.\nWe perform a Bayesian model-agnostic inference of the properties of NSs and QSs\nby combining multi-messenger data of GW170817, GW190425, PSR J0030+0451, PSR\nJ0740+6620, PSR J1614-2230, PSR J0348+0432 as well as ab initio calculations\nfrom perturbative quantum chromodynamics and chiral effective field theory. We\nfind the NS scenario is strongly favored against the QS scenario with a Bayes\nfactor of NS over QS $\\mathcal{B}^\\text{NS}_\\text{QS} = 11.5$. In addition, the\npeak of the squared sound velocity $c_s^2 \\sim 0.5c^2$ around $3.5$ times\nnuclear saturation density $n_0$ observed in the NS case disappears in the QS\ncase which suggests that the $c_s^2$ first increases and then saturates at\n$c_s^2 \\sim 0.5c^2$ above $\\sim 4n_0$. The sound velocity and trace anomaly are\nfound to approach the conformal limit in the core of heavy NSs with mass $M\n\\gtrsim 2M_{\\odot}$, but not in the core of QSs.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:00:49 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Cao","Zheng",""],["Chen","Lie-Wen",""]]}
+{"id":"2308.16784","submitter":"Shuigen Liu","authors":"Shuigen Liu, Sebastian Reich and Xin T. Tong","title":"Dropout Ensemble Kalman inversion for high dimensional inverse problems","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.NA cs.NA","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Ensemble Kalman inversion (EKI) is an ensemble-based method to solve inverse\nproblems. Its gradient-free formulation makes it an attractive tool for\nproblems with involved formulation. However, EKI suffers from the ''subspace\nproperty'', i.e., the EKI solutions are confined in the subspace spanned by the\ninitial ensemble. It implies that the ensemble size should be larger than the\nproblem dimension to ensure EKI's convergence to the correct solution. Such\nscaling of ensemble size is impractical and prevents the use of EKI in high\ndimensional problems. To address this issue, we propose a novel approach using\ndropout regularization to mitigate the subspace problem. We prove that\ndropout-EKI converges in the small ensemble settings, and the computational\ncost of the algorithm scales linearly with dimension. We also show that\ndropout-EKI reaches the optimal query complexity, up to a constant factor.\nNumerical examples demonstrate the effectiveness of our approach.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:01:46 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Liu","Shuigen",""],["Reich","Sebastian",""],["Tong","Xin T.",""]]}
+{"id":"2308.16785","submitter":"Qi Gao","authors":"Qi Gao, Wei Xu, Mowei Shen, Zaifeng Gao","title":"Agent Teaming Situation Awareness (ATSA): A Situation Awareness\n Framework for Human-AI Teaming","comments":"52 pages,5 figures, 1 table","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.AI cs.HC","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The rapid advancements in artificial intelligence (AI) have led to a growing\ntrend of human-AI teaming (HAT) in various fields. As machines continue to\nevolve from mere automation to a state of autonomy, they are increasingly\nexhibiting unexpected behaviors and human-like cognitive/intelligent\ncapabilities, including situation awareness (SA). This shift has the potential\nto enhance the performance of mixed human-AI teams over all-human teams,\nunderscoring the need for a better understanding of the dynamic SA interactions\nbetween humans and machines. To this end, we provide a review of leading SA\ntheoretical models and a new framework for SA in the HAT context based on the\nkey features and processes of HAT. The Agent Teaming Situation Awareness (ATSA)\nframework unifies human and AI behavior, and involves bidirectional, and\ndynamic interaction. The framework is based on the individual and team SA\nmodels and elaborates on the cognitive mechanisms for modeling HAT. Similar\nperceptual cycles are adopted for the individual (including both human and AI)\nand the whole team, which is tailored to the unique requirements of the HAT\ncontext. ATSA emphasizes cohesive and effective HAT through structures and\ncomponents, including teaming understanding, teaming control, and the world, as\nwell as adhesive transactive part. We further propose several future research\ndirections to expand on the distinctive contributions of ATSA and address the\nspecific and pressing next steps.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:02:01 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Gao","Qi",""],["Xu","Wei",""],["Shen","Mowei",""],["Gao","Zaifeng",""]]}
+{"id":"2308.16786","submitter":"Erio Tosatti","authors":"Erio Tosatti","title":"My friend Alex M\\\"uller","comments":"To appear on Physica C Superconductivity -- K. Alex M\\\"uller memorial\n issue","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.hist-ph cond-mat.supr-con","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Alex, the main discoverer of high Tc superconductivity, was also a dear\nfriend. Here I offer a few frank anecdotes, possibly inaccurate in some details\nbut heartfelt and accurate in the substance, as a personal tribute to our\nfriendship.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:03:34 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Tosatti","Erio",""]]}
+{"id":"2308.16787","submitter":"Simone Casale Brunet","authors":"Simone Casale-Brunet, Leonardo Chiariglione, Marco Mattavelli","title":"Exploring the data of blockchain-based metaverses","comments":"In Proceedings of the IEEE International Conference on Metaverse\n Computing, Networking and Applications (IEEE METACOM 2023), June 26--28,\n 2023, Japan","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.SI","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In recent years the concept of metaverse has evolved in the attempt of\ndefining richer immersive and interactive environments supporting various types\nof virtual experiences and interactions among users. This has led to the\nemergence of various different metaverse platforms that utilize blockchain\ntechnology and non-fungible tokens (NFTs) to establish ownership of metaverse\nelements and attach features and information to it. This article will delve\ninto the heterogeneity of the data involved in these metaverse platforms, as\nwell as highlight some dynamics and features of them. Moreover, the paper\nintroduces a metaverse analysis tool developed by the authors, which leverages\nmachine learning techniques to collect and analyze daily data, including\nblockchain transactions, platform-specific metadata, and social media trends.\nExperimental results are reported are presented with a use-case scenario\nfocused on the trading of digital parcels, commonly referred to as metaverse\nreal estate.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:03:44 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Casale-Brunet","Simone",""],["Chiariglione","Leonardo",""],["Mattavelli","Marco",""]]}
+{"id":"2308.16788","submitter":"Antonio M. Peralta","authors":"Antonio M. Peralta","title":"Metric invariants in Banach and Jordan--Banach algebras","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.FA math.OA","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" In this note we collect some significant contributions on metric invariants\nfor complex Banach algebras and Jordan--Banach algebras established during the\nlast fifteen years. This note is mainly expository, but it also contains\ncomplete proofs and arguments, which in many cases are new or have been\nsimplified. We have also included several new results. The common goal in the\nresults is to seek for \"natural\" subsets, $\\mathfrak{S}_{A},$ associated with\neach complex Banach or Jordan--Banach algebra $A$, sets which when equipped\nwith a certain metric, $d_{A}$, enjoys the property that each surjective\nisometry from $(\\mathfrak{S}_{A},d_A)$ to a similar set,\n$(\\mathfrak{S}_{B},d_B),$ associated with another Banach or Jordan--Banach\nalgebra $B$, extends to a surjective real-linear isometry from $A$ onto $B$. In\ncase of a positive answer to this question, the problem of discussing whether\nin such a case the algebras $A$ and $B$ are in fact isomorphic or Jordan\nisomorphic is the subsequent question. The main results presented here will\ncover the cases in which the sets $(\\mathfrak{S}_{A},d_A)$ and\n$(\\mathfrak{S}_{B},d_B)$ are in one of the following situations:\n $(\\checkmark)$ Subsets of the set of invertible elements in a unital complex\nBanach algebra or in a unital complex Jordan--Banach algebra with the metric\ninduced by the norm. Specially in the cases of unital C$^*$- and\nJB$^*$-algebras.\n $(\\checkmark)$ The sets of positive invertible elements in unital C$^*$- or\nJB$^*$-algebras with respect to the metric induced by the norm and with respect\nto the Thompson's metric.\n $(\\checkmark)$ Subsets of the set of unitary elements in unital C$^*$- and\nJB$^*$-algebras.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:03:47 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Peralta","Antonio M.",""]]}
+{"id":"2308.16789","submitter":"Qiyang Zhao","authors":"Qiyang Zhao, Hang Zou, Mehdi Bennis, Merouane Debbah, Ebtesam\n Almazrouei, Faouzi Bader","title":"Joint Semantic-Native Communication and Inference via Minimal Simplicial\n Structures","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SP cs.LG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In this work, we study the problem of semantic communication and inference,\nin which a student agent (i.e. mobile device) queries a teacher agent (i.e.\ncloud sever) to generate higher-order data semantics living in a simplicial\ncomplex. Specifically, the teacher first maps its data into a k-order\nsimplicial complex and learns its high-order correlations. For effective\ncommunication and inference, the teacher seeks minimally sufficient and\ninvariant semantic structures prior to conveying information. These minimal\nsimplicial structures are found via judiciously removing simplices selected by\nthe Hodge Laplacians without compromising the inference query accuracy.\nSubsequently, the student locally runs its own set of queries based on a masked\nsimplicial convolutional autoencoder (SCAE) leveraging both local and remote\nteacher's knowledge. Numerical results corroborate the effectiveness of the\nproposed approach in terms of improving inference query accuracy under\ndifferent channel conditions and simplicial structures. Experiments on a\ncoauthorship dataset show that removing simplices by ranking the Laplacian\nvalues yields a 85% reduction in payload size without sacrificing accuracy.\nJoint semantic communication and inference by masked SCAE improves query\naccuracy by 25% compared to local student based query and 15% compared to\nremote teacher based query. Finally, incorporating channel semantics is shown\nto effectively improve inference accuracy, notably at low SNR values.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:04:28 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zhao","Qiyang",""],["Zou","Hang",""],["Bennis","Mehdi",""],["Debbah","Merouane",""],["Almazrouei","Ebtesam",""],["Bader","Faouzi",""]]}
+{"id":"2308.16790","submitter":"Thomas John","authors":"Thomas P John, Robert J Poole, Adam Kowalski, Claudio P Fonte","title":"A comparison between the FENE-P and sPTT constitutive models in Large\n Amplitude Oscillatory Shear (LAOS)","comments":"Submitted to Journal of Fluid Mechanics","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.flu-dyn cond-mat.soft","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The FENE-P and sPTT viscoelastic models are widely used for modelling of\ncomplex fluids. Although they are derived from distinct micro-structural\ntheories, these models can become mathematically identical in steady and\nhomogeneous flows with a particular choice of the value of the model\nparameters. However, even with this choice of parameter values, the model\nresponses are known to differ from each other in transient flows. In this work,\nwe investigate the responses of the FENE-P and sPTT constitutive models in\nLarge Amplitude Oscillatory Shear (LAOS). In steady-shear, the shear stress\nscales with the non-dimensional group $Wi/(aL) \\ (Wi\\sqrt{\\epsilon})$ for the\nFENE-P (sPTT) model, where $Wi$ is the Weissenberg number, $L^2$ is the limit\nof extensibility in the FENE-P model ($a$ being $L^2/(L^2-3)$) and $\\epsilon$\nis the extensibility parameter in the sPTT model. Our numerical and analytical\nresults show that, in LAOS, the FENE-P model only shows this universality for\nlarge values of $L^2$ whereas the sPTT model shows this universality for all\nvalues of$\\epsilon$. In the strongly non-linear region, there is a drastic\ndifference between the responses of the two models, with the FENE-P model\nexhibiting strong shear stress overshoots which manifest as self-intersecting\nsecondary loops in the viscous Lissajous curves. We quantify the non-linearity\nexhibited by each constitutive model using the Sequence of Physical Processes\nframework. Despite the high degree of non-linearity exhibited by the FENE-P\nmodel, we also show using fully non-linear 1D simulations that it does not\nshear band in LAOS within the range of conditions studied.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:06:11 GMT"}],"update_date":"2023-09-01","authors_parsed":[["John","Thomas P",""],["Poole","Robert J",""],["Kowalski","Adam",""],["Fonte","Claudio P",""]]}
+{"id":"2308.16791","submitter":"Sam E. Brady","authors":"Sam E. Brady, Llibert Arest\\'e Sal\\'o, Katy Clough, Pau Figueras,\n Annamalai P. S","title":"Solving the initial conditions problem for modified gravity theories","comments":"9 pages, 4 figures, comments welcome!","journal-ref":null,"doi":null,"report-no":null,"categories":"gr-qc","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Modified gravity theories such as Einstein scalar Gauss Bonnet (EsGB) contain\nhigher derivative terms in the spacetime curvature in their action, which\nresults in modifications to the Hamiltonian and momentum constraints of the\ntheory. In principle, such modifications may affect the principal part of the\noperator in the resulting elliptic equations, and so further complicate the\nalready highly non-linear, coupled constraints that apply to the initial data\nin numerical relativity simulations of curved spacetimes. However, since these\nare effective field theories, we expect the additional curvature terms to be\nsmall, which motivates treating them simply as an additional source in the\nconstraints, and iterating to find a solution to the full problem. In this work\nwe implement and test a modification to the CTT/CTTK methods of solving the\nconstraints for the case of the most general four derivative, parity invariant\nscalar-tensor theory, and show that solutions can be found in both\nasymptotically flat/black hole and periodic/cosmological spacetimes, even up to\ncouplings of order unity in the theory. Such methods will allow for numerical\ninvestigations of a much broader class of initial data than has previously been\npossible in these theories, and should be straightforward to extend to similar\nmodels in the Horndeski class.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:08:09 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Brady","Sam E.",""],["Sal\u00f3","Llibert Arest\u00e9",""],["Clough","Katy",""],["Figueras","Pau",""],["S","Annamalai P.",""]]}
+{"id":"2308.16792","submitter":"Ramiro Godoy-Diana","authors":"Tao Liu, Beno\\^it Semin, Ramiro Godoy-Diana, Jos\\'e Eduardo Wesfreid","title":"Lift-up and streak waviness drive the self-sustained process in\n wall-bounded transition to turbulence","comments":"12 pages, 8 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"physics.flu-dyn","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Flow field measurements from a Couette-Poiseuille experiment are used to\nexamine quantitatively certain steps of the self-sustained process (SSP) of\nwall-bounded transition to turbulence. Although the different parts of the SSP\nhave been discussed at large in the literature, direct measurements from\nexperiment are scarce and, to our knowledge, the present results are the first\nto show, using a local analysis of the turbulent patterns, that: (1) the\namplitude of streamwise rolls is related to streak waviness, bringing a\nquantitative picture to one of the main physical mechanisms of Waleffe's model\nof SSP ; and (2), at low waviness, direct measurements of the correlation\nbetween the streak and roll amplitudes, respectively probed by the streamwise\nand wall-normal velocity perturbations, quantify the lift-up effect.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:09:23 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Liu","Tao",""],["Semin","Beno\u00eet",""],["Godoy-Diana","Ramiro",""],["Wesfreid","Jos\u00e9 Eduardo",""]]}
+{"id":"2308.16793","submitter":"Yushan Su","authors":"Chao Han, Yushan Su, Wei Wang, Jia-Lu Zhang","title":"Hybrid Renormalization for Quasi Distribution Amplitudes of A Light\n Baryon","comments":"25 pages, 4 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph hep-lat nucl-th","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We develop a hybrid scheme to renormalize quasi distribution amplitudes of a\nlight baryon on the lattice, which combines the self-renormalization and ratio\nscheme. By employing self-renormalization, the UV divergences and linear\ndivergence at large spatial separations in quasi distribution amplitudes are\nremoved without introducing extra nonperturbative effects, while making a ratio\nwith respect to the zero-momentum matrix element can properly remove the UV\ndivergences in small spatial separations. As a specific application,\ndistribution amplitudes of the $\\Lambda$ baryon made of $uds$ are investigated,\nand the requisite equal-time correlators, which define quasi distribution\namplitudes in coordinate space, are perturbatively calculated up to the\nnext-to-leading order in strong coupling constant $\\alpha_s$. These\nperturbative equal-time correlators are used to convert lattice QCD matrix\nelements to the continuum space during the renormalization process.\nSubsequently, quasi distribution amplitudes are matched onto lightcone\ndistribution amplitudes by integrating out hard modes and the corresponding\nhard kernels are derived up to next-to-leading order in $\\alpha_s$ including\nthe hybrid counterterms. These results are valuable in the lattice-based\ninvestigation of the lightcone distribution amplitudes of a light baryon from\nthe first principles of QCD.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:11:11 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Han","Chao",""],["Su","Yushan",""],["Wang","Wei",""],["Zhang","Jia-Lu",""]]}
+{"id":"2308.16794","submitter":"Tobias K\\\"onig","authors":"Tobias K\\\"onig","title":"An exceptional property of the one-dimensional Bianchi-Egnell inequality","comments":"23 pages. Comments welcome!","journal-ref":null,"doi":null,"report-no":null,"categories":"math.AP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper, for $d \\geq 1$ and $s \\in (0,\\frac{d}{2})$, we study the\nBianchi-Egnell quotient \\[ \\mathcal Q(f) = \\inf_{f \\in \\dot{H}^s(\\mathbb R^d)\n\\setminus \\mathcal B} \\frac{\\|(-\\Delta)^{s/2} f\\|_{L^2(\\mathbb R^d)}^2 -\nS_{d,s} \\|f\\|_{L^{\\frac{2d}{d-2s}}(\\mathbb\nR^d)}^2}{\\text{dist}_{\\dot{H}^s(\\mathbb R^d)}(f, \\mathcal B)^2}, \\qquad f \\in\n\\dot{H}^s(\\mathbb R^d) \\setminus \\mathcal B, \\] where $S_{d,s}$ is the best\nSobolev constant and $\\mathcal B$ is the manifold of Sobolev optimizers. By a\nfine asymptotic analysis, we prove that when $d = 1$, there is a neighborhood\nof $\\mathcal B$ on which the quotient $\\mathcal Q(f)$ is larger than the lowest\nvalue attainable by sequences converging to $\\mathcal B$. This behavior is\nsurprising because it is contrary to the situation in dimension $d \\geq 2$\ndescribed recently in \\cite{Koenig}.\n This leads us to conjecture that for $d = 1$, $\\mathcal Q(f)$ has no\nminimizer on $\\dot{H}^s(\\mathbb R^d) \\setminus \\mathcal B$, which again would\nbe contrary to the situation in $d \\geq 2$.\n As a complement of the above, we study a family of test functions which\ninterpolates between one and two Talenti bubbles, for every $d \\geq 1$. For $d\n\\geq 2$, this family yields an alternative proof of the main result of\n\\cite{Koenig}. For $d =1$ we make some numerical observations which support the\nconjecture stated above.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:14:03 GMT"}],"update_date":"2023-09-01","authors_parsed":[["K\u00f6nig","Tobias",""]]}
+{"id":"2308.16795","submitter":"John Mendonca","authors":"John Mendon\\c{c}a, Alon Lavie, Isabel Trancoso","title":"Towards Multilingual Automatic Dialogue Evaluation","comments":"SIGDIAL23","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The main limiting factor in the development of robust multilingual dialogue\nevaluation metrics is the lack of multilingual data and the limited\navailability of open sourced multilingual dialogue systems. In this work, we\npropose a workaround for this lack of data by leveraging a strong multilingual\npretrained LLM and augmenting existing English dialogue data using Machine\nTranslation. We empirically show that the naive approach of finetuning a\npretrained multilingual encoder model with translated data is insufficient to\noutperform the strong baseline of finetuning a multilingual model with only\nsource data. Instead, the best approach consists in the careful curation of\ntranslated data using MT Quality Estimation metrics, excluding low quality\ntranslations that hinder its performance.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:15:26 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Mendon\u00e7a","John",""],["Lavie","Alon",""],["Trancoso","Isabel",""]]}
+{"id":"2308.16796","submitter":"Nicholas Vieira","authors":"Nicholas Vieira, John J. Ruan, Daryl Haggard, Nicole M. Ford, Maria R.\n Drout, Rodrigo Fern\\'andez","title":"Spectroscopic r-Process Abundance Retrieval for Kilonovae II:\n Lanthanides in the Inferred Abundance Patterns of Multi-Component Ejecta from\n the GW170817 Kilonova","comments":"15 pages, 5 figures in body + 10 pages, 9 figures in appendix;\n submitted to ApJ; comments welcome!","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.HE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In kilonovae, freshly-synthesized $r$-process elements imprint features on\noptical spectra, as observed in AT2017gfo, the counterpart to the GW170817\nbinary neutron star merger. However, measuring the $r$-process compositions of\nthe merger ejecta is computationally challenging. Vieira et al. (2023)\nintroduced Spectroscopic $r$-Process Abundance Retrieval for Kilonovae (SPARK),\na software tool to infer elemental abundance patterns of the ejecta, and\nassociate spectral features with particular species. Previously, we applied\nSPARK to the 1.4 day spectrum of AT2017gfo and inferred its abundance pattern\nfor the first time, characterized by electron fraction $Y_e=0.31$, a\nsubstantial abundance of strontium, and a dearth of lanthanides and heavier\nelements. This ejecta is consistent with wind from a remnant hypermassive\nneutron star and/or accretion disk. We now extend our inference to spectra at\n2.4 and 3.4 days, and test the need for multi-component ejecta, where we\nstratify the ejecta in composition. The ejecta at 1.4 and 2.4 days is described\nby the same single blue component. At 3.4 days, a new redder component with\nlower $Y_e=0.16$ and a significant abundance of lanthanides emerges. This new\nredder component is consistent with dynamical ejecta and/or neutron-rich ejecta\nfrom a magnetized accretion disk. As expected from photometric modelling, this\ncomponent emerges as the ejecta expands, the photosphere recedes, and the\nearlier bluer component dims. At 3.4 days, we find an ensemble of lanthanides,\nwith the presence of cerium most concrete. This presence of lanthanides has\nimportant implications for the contribution of kilonovae to the $r$-process\nabundances observed in the Universe.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:16:52 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Vieira","Nicholas",""],["Ruan","John J.",""],["Haggard","Daryl",""],["Ford","Nicole M.",""],["Drout","Maria R.",""],["Fern\u00e1ndez","Rodrigo",""]]}
+{"id":"2308.16797","submitter":"John Mendonca","authors":"John Mendon\\c{c}a, Patr\\'icia Pereira, Jo\\~ao Paulo Carvalho, Alon\n Lavie, Isabel Trancoso","title":"Simple LLM Prompting is State-of-the-Art for Robust and Multilingual\n Dialogue Evaluation","comments":"DSTC11 best paper for Track 4","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Despite significant research effort in the development of automatic dialogue\nevaluation metrics, little thought is given to evaluating dialogues other than\nin English. At the same time, ensuring metrics are invariant to semantically\nsimilar responses is also an overlooked topic. In order to achieve the desired\nproperties of robustness and multilinguality for dialogue evaluation metrics,\nwe propose a novel framework that takes advantage of the strengths of current\nevaluation models with the newly-established paradigm of prompting Large\nLanguage Models (LLMs). Empirical results show our framework achieves state of\nthe art results in terms of mean Spearman correlation scores across several\nbenchmarks and ranks first place on both the Robust and Multilingual tasks of\nthe DSTC11 Track 4 \"Automatic Evaluation Metrics for Open-Domain Dialogue\nSystems\", proving the evaluation capabilities of prompted LLMs.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:19:28 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Mendon\u00e7a","John",""],["Pereira","Patr\u00edcia",""],["Carvalho","Jo\u00e3o Paulo",""],["Lavie","Alon",""],["Trancoso","Isabel",""]]}
+{"id":"2308.16798","submitter":"Sheng Yang","authors":"Sheng Yang, Liangyu Wu, Zekai Zheng, Masahiro Ogihara, Kangrou Guo,\n Wenzhan Ouyang, Yaxing He","title":"The stability of unevenly spaced planetary systems","comments":"6 pages, 3 figures, accepted for publication in Icarus","journal-ref":"Icarus, Volume 406, 2023, 115757","doi":"10.1016/j.icarus.2023.115757","report-no":null,"categories":"astro-ph.EP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Studying the orbital stability of multi-planet systems is essential to\nunderstand planet formation, estimate the stable time of an observed planetary\nsystem, and advance population synthesis models. Although previous studies have\nprimarily focused on ideal systems characterized by uniform orbital\nseparations, in reality a diverse range of orbital separations exists among\nplanets within the same system. This study focuses on investigating the\ndynamical stability of systems with non-uniform separation. We considered a\nsystem with 10 planets with masses of $10^{-7}$ solar masses around a central\nstar with a mass of $1$ solar mass. We performed more than 100,000 runs of\nN-body simulations with different parameters. Results demonstrate that reducing\nmerely one pair of planetary spacing leads to an order of magnitude shorter\norbital crossing times that could be formulated based on the Keplerian periods\nof the closest separation pair. Furthermore, the first collisions are found to\nbe closely associated with the first encounter pair that is likely to be the\nclosest separation pair initially. We conclude that when estimating the orbital\ncrossing time and colliding pairs in a realistic situation, updating the\nformula derived for evenly spaced systems would be necessary.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:20:32 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Yang","Sheng",""],["Wu","Liangyu",""],["Zheng","Zekai",""],["Ogihara","Masahiro",""],["Guo","Kangrou",""],["Ouyang","Wenzhan",""],["He","Yaxing",""]]}
+{"id":"2308.16799","submitter":"Vincent Blay","authors":"Vincent Blay, Felix Grases","title":"Research directions for kidney stone disease","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"q-bio.TO","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Kidney stone disease poses a major burden to patients and healthcare systems\naround the world. The formation of kidney stones may occur over months or\nyears, but many patients are diagnosed at a late stage, suffer excruciating\npain, and require surgical intervention to physically remove the stones. The\nprevalence of kidney stones has increased during recent decades to over 10% in\nmany developed countries, suggesting a link with environmental and behavioral\nfactors. Recurrence rates are also high. In terms of their impact and scale,\nkidney stones are an ongoing pandemic. The causes and mechanisms of kidney\nstone formation are diverse and often unknown, resulting in varied compositions\nand different anatomical locations being affected. A better understanding of\nthese processes could enable earlier diagnoses through more sensitive and\nscalable biomarkers, as well as more effective preventives and therapeutics.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:21:42 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Blay","Vincent",""],["Grases","Felix",""]]}
+{"id":"2308.16800","submitter":"Andreas Roth","authors":"Andreas Roth, Thomas Liebig","title":"Rank Collapse Causes Over-Smoothing and Over-Correlation in Graph Neural\n Networks","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Our study reveals new theoretical insights into over-smoothing and feature\nover-correlation in deep graph neural networks. We show the prevalence of\ninvariant subspaces, demonstrating a fixed relative behavior that is unaffected\nby feature transformations. Our work clarifies recent observations related to\nconvergence to a constant state and a potential over-separation of node states,\nas the amplification of subspaces only depends on the spectrum of the\naggregation function. In linear scenarios, this leads to node representations\nbeing dominated by a low-dimensional subspace with an asymptotic convergence\nrate independent of the feature transformations. This causes a rank collapse of\nthe node representations, resulting in over-smoothing when smooth vectors span\nthis subspace, and over-correlation even when over-smoothing is avoided. Guided\nby our theory, we propose a sum of Kronecker products as a beneficial property\nthat can provably prevent over-smoothing, over-correlation, and rank collapse.\nWe empirically extend our insights to the non-linear case, demonstrating the\ninability of existing models to capture linearly independent features.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:22:31 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Roth","Andreas",""],["Liebig","Thomas",""]]}
+{"id":"2308.16801","submitter":"Mohsen Zand","authors":"Mohsen Zand, Ali Etemad, Michael Greenspan","title":"Multiscale Residual Learning of Graph Convolutional Sequence Chunks for\n Human Motion Prediction","comments":"13 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" A new method is proposed for human motion prediction by learning temporal and\nspatial dependencies. Recently, multiscale graphs have been developed to model\nthe human body at higher abstraction levels, resulting in more stable motion\nprediction. Current methods however predetermine scale levels and combine\nspatially proximal joints to generate coarser scales based on human priors,\neven though movement patterns in different motion sequences vary and do not\nfully comply with a fixed graph of spatially connected joints. Another problem\nwith graph convolutional methods is mode collapse, in which predicted poses\nconverge around a mean pose with no discernible movements, particularly in\nlong-term predictions. To tackle these issues, we propose ResChunk, an\nend-to-end network which explores dynamically correlated body components based\non the pairwise relationships between all joints in individual sequences.\nResChunk is trained to learn the residuals between target sequence chunks in an\nautoregressive manner to enforce the temporal connectivities between\nconsecutive chunks. It is hence a sequence-to-sequence prediction network which\nconsiders dynamic spatio-temporal features of sequences at multiple levels. Our\nexperiments on two challenging benchmark datasets, CMU Mocap and Human3.6M,\ndemonstrate that our proposed method is able to effectively model the sequence\ninformation for motion prediction and outperform other techniques to set a new\nstate-of-the-art. Our code is available at\nhttps://github.com/MohsenZand/ResChunk.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:23:33 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zand","Mohsen",""],["Etemad","Ali",""],["Greenspan","Michael",""]]}
+{"id":"2308.16802","submitter":"Miquel Colom-Bernadich","authors":"M. Colom i Bernadich, V. Balakrishnan, E. Barr, M. Berezina, M.\n Burgay, S. Buchner, D. J. Champion, G. Desvignes, P. C. C. Freire, K.\n Grunthal, M. Kramer, Y. Men, P. V. Padmanabh, A. Parthasarathy, D. Pillay, I.\n Rammala, S. Sengupta, and V. Venkatraman Krishnan","title":"The MPIfR-MeerKAT Galactic Plane Survey II. The eccentric double neutron\n star system PSR J1208-5936 and a neutron star merger rate update","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.HE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The MMGPS-L is the most sensitive pulsar survey in the Southern Hemisphere.\nWe present a follow-up study of one of these new discoveries, PSR J1208-5936, a\n28.71-ms recycled pulsar in a double neutron star system with an orbital period\nof Pb=0.632 days and an eccentricity of e=0.348. Through timing of almost one\nyear of observations, we detected the relativistic advance of periastron\n(0.918(1) deg/yr), resulting in a total system mass of Mt=2.586(5) Mo. We also\nachieved low-significance constraints on the amplitude of the Einstein delay\nand Shapiro delay, in turn yielding constraints on the pulsar mass\n(Mp=1.26(+0.13/-0.25) Mo), the companion mass (Mc=1.32(+0.25/-0.13) Mo, and the\ninclination angle (i=57(2) degrees). This system is highly eccentric compared\nto other Galactic field double neutron stars with similar periods, possibly\nhinting at a larger-than-usual supernova kick during the formation of the\nsecond-born neutron star. The binary will merge within 7.2(2) Gyr due to the\nemission of gravitational waves. With the improved sensitivity of the MMGPS-L,\nwe updated the Milky Way neutron star merger rate to be 25(+19/-9) Myr$^{-1}$\nwithin 90% credible intervals, which is lower than previous studies based on\nknown Galactic binaries owing to the lack of further detections despite the\nhighly sensitive nature of the survey. This implies a local cosmic neutron star\nmerger rate of 293(+222/-103} Gpc/yr, consistent with LIGO and Virgo O3\nobservations. With this, we predict the observation of 10(+8/-4) neutron star\nmerger events during the LIGO-Virgo-KAGRA O4 run. We predict the uncertainties\non the component masses and the inclination angle will be reduced to\n5x10$^{-3}$ Mo and 0.4 degrees after two decades of timing, and that in at\nleast a decade from now the detection of the shift in Pb and the sky proper\nmotion will serve to make an independent constraint of the distance to the\nsystem.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:24:33 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Bernadich","M. Colom i",""],["Balakrishnan","V.",""],["Barr","E.",""],["Berezina","M.",""],["Burgay","M.",""],["Buchner","S.",""],["Champion","D. J.",""],["Desvignes","G.",""],["Freire","P. C. C.",""],["Grunthal","K.",""],["Kramer","M.",""],["Men","Y.",""],["Padmanabh","P. V.",""],["Parthasarathy","A.",""],["Pillay","D.",""],["Rammala","I.",""],["Sengupta","S.",""],["Krishnan","V. Venkatraman",""]]}
+{"id":"2308.16803","submitter":"Nicolas Vallis","authors":"Nicolas Vallis, Paolo Craievich, Mattia Sch\\\"ar, Riccardo Zennaro,\n Bernard Auchmann, Hans-Heinrich Braun, Maria Ilaria Besana, Michal Duda, Reto\n Fortunati, Henrique Garcia Rodrigues, Dominique Hauenstein, Rasmus Ischebeck\n Rasmus, Pavle Jurani\\'c, Jaap Kosse, Fabio Marcellini, Thomas Uli Michlmayr,\n Stefan M\\\"uller, Marco Pedrozzi, Renzo Rotundo, Gian Luca Orlandi, Mike\n Seidel, Nick Parsifal Strohmaier and Mariia Zykova","title":"The P$^3$ Experiment: A Positron Source Demonstrator for Future Lepton\n Colliders","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.acc-ph hep-ex","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" The PSI Positron Production (P$^3$ or P-cubed) experiment is a demonstrator\nfor a e+ source and capture system with potential to improve the\nstate-of-the-art e+ yield by an order of magnitude. The experiment is driven by\nthe FCC-ee injector study and will be hosted in the SwissFEL facility at the\nPaul Scherrer Institute in Switzerland. This paper is an overview of the P$^3$\ndesign at an advanced stage, with a particular emphasis on a novel e+ capture\nsystem and its associated beam dynamics. Additionally, a concept for the\nexperiment diagnostics is presented, as well as the key points of the ongoing\ninstallation works.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:25:05 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Vallis","Nicolas",""],["Craievich","Paolo",""],["Sch\u00e4r","Mattia",""],["Zennaro","Riccardo",""],["Auchmann","Bernard",""],["Braun","Hans-Heinrich",""],["Besana","Maria Ilaria",""],["Duda","Michal",""],["Fortunati","Reto",""],["Rodrigues","Henrique Garcia",""],["Hauenstein","Dominique",""],["Rasmus","Rasmus Ischebeck",""],["Jurani\u0107","Pavle",""],["Kosse","Jaap",""],["Marcellini","Fabio",""],["Michlmayr","Thomas Uli",""],["M\u00fcller","Stefan",""],["Pedrozzi","Marco",""],["Rotundo","Renzo",""],["Orlandi","Gian Luca",""],["Seidel","Mike",""],["Strohmaier","Nick Parsifal",""],["Zykova","Mariia",""]]}
+{"id":"2308.16804","submitter":"Xusheng Zhu","authors":"Xusheng Zhu, Wen Chen, Zhendong Li, Qingqing Wu, Ziheng Zhang, Kunlun\n Wang, and Jun Li","title":"On the Performance of RIS-Aided Spatial Scattering Modulation for mmWave\n Transmission","comments":"arXiv admin note: substantial text overlap with arXiv:2307.14662","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.IT eess.SP math.IT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper, we investigate a state-of-the-art reconfigurable intelligent\nsurface (RIS)-assisted spatial scattering modulation (SSM) scheme for\nmillimeter-wave (mmWave) systems, where a more practical scenario that the RIS\nis near the transmitter while the receiver is far from RIS is considered. To\nthis end, the line-of-sight (LoS) and non-LoS links are utilized in the\ntransmitter-RIS and RIS-receiver channels, respectively. By employing the\nmaximum likelihood detector at the receiver, the conditional pairwise error\nprobability (CPEP) expression for the RIS-SSM scheme is derived under the two\nscenarios that the received beam demodulation is correct or not. Furthermore,\nthe union upper bound of average bit error probability (ABEP) is obtained based\non the CPEP expression. Finally, the derivation results are exhaustively\nvalidated by the Monte Carlo simulations.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:25:41 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zhu","Xusheng",""],["Chen","Wen",""],["Li","Zhendong",""],["Wu","Qingqing",""],["Zhang","Ziheng",""],["Wang","Kunlun",""],["Li","Jun",""]]}
+{"id":"2308.16805","submitter":"Indrani Bose","authors":"Indrani Bose","title":"Emergent phenomena in living systems: a statistical mechanical\n perspective","comments":"29 pages, 4 figures","journal-ref":"Journal of Biosciences 47, 22 (2022)","doi":"10.1007/s12038-021-00247-2","report-no":null,"categories":"cond-mat.stat-mech physics.bio-ph q-bio.QM","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" A natural phenomenon occurring in a living system is an outcome of the\ndynamics of the specific biological network underlying the phenomenon. The\ncollective dynamics have both deterministic and stochastic components. The\nstochastic nature of the key processes like gene expression and cell\ndifferentiation give rise to fluctuations (noise) in the levels of the\nbiomolecules and this combined with nonlinear interactions give rise to a\nnumber of emergent phenomena. In this review, we describe and discuss some of\nthese phenomena which have the character of phase transitions in physical\nsystems. We specifically focus on noise-induced transitions in a stochastic\nmodel of gene expression and in a population genetics model which have no\nanalogs when the dynamics are solely deterministic in nature. Some of these\ntransitions exhibit critical-point phenomena belonging to the mean-field Ising\nuniversality class of equilibrium phase transitions. A number of other\nexamples, ranging from biofilms to homeostasis in adult tissues, are also\ndiscussed which exhibit behavior similar to critical phenomena in equilibrium\nand nonequilbrium phase transitions. The examples illustrate how the subject of\nstatistical mechanics provides a bridge between theoretical models and\nexperimental observations.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:25:51 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Bose","Indrani",""]]}
+{"id":"2308.16806","submitter":"Tatiana Webb","authors":"Tatiana A. Webb, Afrin N. Tamanna, Xiaxin Ding, Jikai Xu, Lia\n Krusin-Elbaum, Cory R. Dean, Dmitri N. Basov and Abhay N. Pasupathy","title":"Tunable magnetic domains in ferrimagnetic MnSb$_2$Te$_4$","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.str-el cond-mat.mes-hall","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Highly tunable properties make Mn(Bi,Sb)$_2$Te$_4$ a rich playground for\nexploring the interplay between band topology and magnetism: On one end,\nMnBi$_2$Te$_4$ is an antiferromagnetic topological insulator, while the\nmagnetic structure of MnSb$_2$Te$_4$ (MST) can be tuned between\nantiferromagnetic and ferrimagnetic. Motivated to control electronic properties\nthrough real-space magnetic textures, we use magnetic force microscopy (MFM) to\nimage the domains of ferrimagnetic MST. We find that magnetic field tunes\nbetween stripe and bubble domain morphologies, raising the possibility of\ntopological spin textures. Moreover, we combine in situ transport with domain\nmanipulation and imaging to both write MST device properties and directly\nmeasure the scaling of the Hall response with domain area. This work\ndemonstrates measurement of the local anomalous Hall response using MFM, and\nopens the door to reconfigurable domain-based devices in the M(B,S)T family.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:27:09 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Webb","Tatiana A.",""],["Tamanna","Afrin N.",""],["Ding","Xiaxin",""],["Xu","Jikai",""],["Krusin-Elbaum","Lia",""],["Dean","Cory R.",""],["Basov","Dmitri N.",""],["Pasupathy","Abhay N.",""]]}
+{"id":"2308.16807","submitter":"Biswajit Sahoo","authors":"Hare Krishna and Biswajit Sahoo","title":"Universality of Loop Corrected Soft Theorems in 4d","comments":"56 pages + appendices","journal-ref":null,"doi":null,"report-no":"YITP-SB-2023-26","categories":"hep-th","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In \\cite{1808.03288}, logarithmic correction to subleading soft photon and\nsoft graviton theorems have been derived in four spacetime dimensions from the\nratio of IR-finite S-matrices. This has been achieved after factoring out\nIR-divergent components from the traditional electromagnetic and gravitational\nS-matrices using Grammer-Yennie prescription. Although the loop corrected\nsubleading soft theorems are derived from one-loop scattering amplitudes\ninvolving scalar particles in a minimally coupled theory with scalar contact\ninteraction, it has been conjectured that the soft factors are universal\n(theory independent) and one-loop exact (don't receive corrections from higher\nloops).\n This paper extends the analysis conducted in \\cite{1808.03288} to encompass\ngeneral spinning particle scattering with non-minimal couplings permitted by\ngauge invariance and general coordinate invariance. By re-deriving the\n$\\ln\\omega$ soft factors in this generic setup, we establish their universal\nnature. Furthermore, we summarize the results of loop corrected soft photon and\ngraviton theorems up to sub-subleading order, which follows from the analysis\nof one and two loop QED and quantum gravity S-matrices. While the classical\nversions of these soft factors have already been derived in the literature, we\nput forth conjectures regarding the quantum soft factors and outline potential\nstrategies for their derivation.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:30:45 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Krishna","Hare",""],["Sahoo","Biswajit",""]]}
+{"id":"2308.16808","submitter":"Songling Shan","authors":"Songling Shan","title":"Towards the Overfull Conjecture","comments":"arXiv admin note: text overlap with arXiv:2205.08564,\n arXiv:2105.05286","journal-ref":null,"doi":null,"report-no":null,"categories":"math.CO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Let $G$ be a simple graph with maximum degree denoted as $\\Delta(G)$. An\noverfull subgraph $H$ of $G$ is a subgraph satisfying the condition $|E(H)| >\n\\Delta(G)\\lfloor \\frac{1}{2}|V(H)| \\rfloor$. In 1986, Chetwynd and Hilton\nproposed the Overfull Conjecture, stating that a graph $G$ with maximum degree\n$\\Delta(G)> \\frac{1}{3}|V(G)|$ has chromatic index equal to $\\Delta(G)$ if and\nonly if it does not contain any overfull subgraph. The Overfull Conjecture has\nmany implications. For example, it implies a polynomial-time algorithm for\ndetermining the chromatic index of graphs $G$ with $\\Delta(G) >\n\\frac{1}{3}|V(G)|$, and implies several longstanding conjectures in the area of\ngraph edge colorings. In this paper, we make the first improvement towards the\nconjecture when not imposing a minimum degree condition on the graph: for any\n$0<\\varepsilon \\le \\frac{1}{22}$, there exists a positive integer $n_0$ such\nthat if $G$ is a graph on $n\\ge n_0$ vertices with $\\Delta(G) \\ge\n(1-\\varepsilon)n$, then the Overfull Conjecture holds for $G$. The previous\nbest result in this direction, due to Chetwynd and Hilton from 1989, asserts\nthe conjecture for graphs $G$ with $\\Delta(G) \\ge |V(G)|-3$.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:33:13 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Shan","Songling",""]]}
+{"id":"2308.16809","submitter":"Gabriel Conant","authors":"G. Conant, C. Terry","title":"Pseudofinite proofs of the stable graph regularity lemma","comments":"15 pages, submitted as a chapter in a forthcoming title of the Fields\n Institute Monographs book series","journal-ref":null,"doi":null,"report-no":null,"categories":"math.LO math.CO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This expository article is based on two lectures given by the first author at\nthe Fields Institute in the Fall 2021 Thematic Program on Trends in Pure and\nApplied Model Theory.\n We give a detailed proof of a qualitative version of the Mallaris-Shelah\nregularity lemma for stable graphs using only basic local stability theory and\nan ultraproduct construction. This proof strategy was first established by\nMalliaris and Pillay, and later simplified by Pillay. We provide some further\nsimplifications, and also explain how the pseudofinite approach can be used to\nobtain a qualitative strengthening (compared to previous proofs) in terms of\n\"functional error\". To illustrate the extra leverage obtained by functional\nerror, we give an elementary argument for extracting equipartitions from\narbitrary partitions.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:34:55 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Conant","G.",""],["Terry","C.",""]]}
+{"id":"2308.16810","submitter":"Keisuke Okamura","authors":"Keisuke Okamura","title":"Atlas of Science Collaboration, 1971-2020","comments":"6+121 pages, many figures, 49 MB","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.DL cs.CY cs.SI physics.soc-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" The evolving landscape of interinstitutional collaborative research across 15\nnatural science disciplines is explored using the open data sourced from\nOpenAlex. This extensive exploration spans the years from 1971 to 2020,\nfacilitating a thorough investigation of leading scientific output producers\nand their collaborative relationships based on coauthorships. The findings are\nvisually presented on world maps and other diagrams, offering a clear and\ninsightful portrayal of notable variations in both national and international\ncollaboration patterns across various fields and time periods. These visual\nrepresentations serve as valuable resources for science policymakers, diplomats\nand institutional researchers, providing them with a comprehensive overview of\nglobal collaboration and aiding their intuitive grasp of the evolving nature of\nthese partnerships over time.\n","versions":[{"version":"v1","created":"Tue, 22 Aug 2023 20:11:42 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Okamura","Keisuke",""]]}
+{"id":"2308.16811","submitter":"Aaron Baumgarten","authors":"Aaron S. Baumgarten, Justin Moreno, Brett Kuwik, Sohanjit Ghosh, Ryan\n Hurley, K.T. Ramesh","title":"A predictive model for fluid-saturated, brittle granular materials\n during high-velocity impact events","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.soft physics.flu-dyn","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Granular materials -- aggregates of many discrete, disconnected solid\nparticles -- are ubiquitous in natural and industrial settings. Predictive\nmodels for their behavior have wide ranging applications, e.g. in defense,\nmining, construction, pharmaceuticals, and the exploration of planetary\nsurfaces. In many of these applications, granular materials mix and interact\nwith liquids and gases, changing their effective behavior in non-intuitive\nways. Although such materials have been studied for more than a century, a\nunified description of their behaviors remains elusive.\n In this work, we develop a model for granular materials and mixtures that is\nusable under particularly challenging conditions: high-velocity impact events.\nThis model combines descriptions for the many deformation mechanisms that are\nactivated during impact -- particle fracture and breakage; pore collapse and\ndilation; shock loading; and pore fluid coupling -- within a thermo-mechanical\nframework based on poromechanics and mixture theory. This approach allows for\nsimultaneous modeling of the granular material and the pore fluid, and includes\nboth their independent motions and their complex interactions. A general form\nof the model is presented alongside its specific application to two types of\nsands that have been studied in the literature. The model predictions are shown\nto closely match experimental observation of these materials through several\nGPa stresses, and simulations are shown to capture the different dynamic\nresponses of dry and fully-saturated sand to projectile impacts at 1.3 km/s.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:40:17 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Baumgarten","Aaron S.",""],["Moreno","Justin",""],["Kuwik","Brett",""],["Ghosh","Sohanjit",""],["Hurley","Ryan",""],["Ramesh","K. T.",""]]}
+{"id":"2308.16812","submitter":"Benjamin Landon","authors":"Benjamin Landon, Philippe Sosoe","title":"Tail estimates for the stationary stochastic six vertex model and ASEP","comments":"49 pages, 7 figures. Comments welcome","journal-ref":null,"doi":null,"report-no":null,"categories":"math.PR","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" This work studies the tail exponents for the height function of the\nstationary stochastic six vertex model in the moderate deviations regime. For\nthe upper tail of the height function we find upper and lower bounds of\nmatching order, with a tail exponent of $\\frac{3}{2}$, characteristic of KPZ\ndistributions. We also obtain an upper bound for the lower tail of the same\norder.\n Our results for the stochastic six vertex model hold under a restriction on\nthe model parameters for which a certain ``microscopic concavity'' condition\nholds. Nevertheless, our estimates are sufficiently strong to pass through the\ndegeneration of the stochastic six vertex model to the ASEP. We therefore\nobtain tail estimates for both the current as well as the location of a second\nclass particle in the ASEP with stationary (Bernoulli) initial data. Our\nestimates complement the variance bounds obtained in the seminal work of\nBal\\'azs and Sepp\\\"al\\\"ainen.}\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:40:57 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Landon","Benjamin",""],["Sosoe","Philippe",""]]}
+{"id":"2308.16813","submitter":"Tim Scargill","authors":"Tim Scargill and Ying Chen and Tianyi Hu and Maria Gorlatova","title":"SiTAR: Situated Trajectory Analysis for In-the-Wild Pose Error\n Estimation","comments":"To appear in Proceedings of IEEE ISMAR 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.HC","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" Virtual content instability caused by device pose tracking error remains a\nprevalent issue in markerless augmented reality (AR), especially on smartphones\nand tablets. However, when examining environments which will host AR\nexperiences, it is challenging to determine where those instability artifacts\nwill occur; we rarely have access to ground truth pose to measure pose error,\nand even if pose error is available, traditional visualizations do not connect\nthat data with the real environment, limiting their usefulness. To address\nthese issues we present SiTAR (Situated Trajectory Analysis for Augmented\nReality), the first situated trajectory analysis system for AR that\nincorporates estimates of pose tracking error. We start by developing the first\nuncertainty-based pose error estimation method for visual-inertial simultaneous\nlocalization and mapping (VI-SLAM), which allows us to obtain pose error\nestimates without ground truth; we achieve an average accuracy of up to 96.1%\nand an average F1 score of up to 0.77 in our evaluations on four VI-SLAM\ndatasets. Next we present our SiTAR system, implemented for ARCore devices,\ncombining a backend that supplies uncertainty-based pose error estimates with a\nfrontend that generates situated trajectory visualizations. Finally, we\nevaluate the efficacy of SiTAR in realistic conditions by testing three\nvisualization techniques in an in-the-wild study with 15 users and 13 diverse\nenvironments; this study reveals the impact both environment scale and the\nproperties of surfaces present can have on user experience and task\nperformance.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:41:21 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Scargill","Tim",""],["Chen","Ying",""],["Hu","Tianyi",""],["Gorlatova","Maria",""]]}
+{"id":"2308.16814","submitter":"Rahman Khorramfar","authors":"Rahman Khorramfar, Morgan Santoni-Colvin, Saurabh Amin, Leslie K.\n Norford, Audun Botterud, Dharik Mallapragada","title":"Cost-effective Planning of Decarbonized Power-Gas Infrastructure to Meet\n the Challenges of Heating Electrification","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"eess.SY cs.SY","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Building heat electrification is central to economy-wide decarbonization\nefforts and directly affects energy infrastructure planning through increasing\nelectricity demand and reduces the use of gas infrastructure that also serves\nthe power sector. However, the simultaneous effects on both the power and gas\nsystems have yet to be rigorously evaluated. Offering two key contributions, we\ndevelop a modeling framework to project end-use demand for electricity and gas\nin the buildings sector under various electrification pathways and evaluate\ntheir impact on co-optimized bulk power-gas infrastructure investments and\noperations under deep decarbonization scenarios. Applying the framework to\nstudy the U.S. New England region in 2050 across 20 weather scenarios, we find\nhigh electrification of the residential sector can increase sectoral peak and\ntotal electricity demands by up to 62-160% and 47-65% respectively relative to\nbusiness-as-usual trajectories. Employing demand-side measures like building\nenvelope improvements under high electrification, however, can reduce the\nmagnitude and weather sensitivity of peak load as well as reduce combined power\nand gas demand by 29-31% relative to the present day. Notably, a combination of\nhigh electrification and envelope improvements yields the lowest bulk power-gas\nsystem cost outcomes. We also find that inter-annual weather-driven variations\nin demand result in up to 20% variation in optimal power sector investments,\nwhich highlights the importance of capturing weather sensitivity for planning\npurposes.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:42:50 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Khorramfar","Rahman",""],["Santoni-Colvin","Morgan",""],["Amin","Saurabh",""],["Norford","Leslie K.",""],["Botterud","Audun",""],["Mallapragada","Dharik",""]]}
+{"id":"2308.16815","submitter":"Kouichi Taira","authors":"Kouichi Taira and Hiroyoshi Tamori","title":"Strichartz estimates for the $(k,a)$-generalized Laguerre operators","comments":"34 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"math.AP math.RT","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper, we prove Strichartz estimates for the $(k,a)$-generalized\nLaguerre operators $a^{-1}(-|x|^{2-a}\\Delta_k+|x|^a)$ which were introduced by\nBen Sa\\\"{\\i}d-Kobayashi-{\\0}rsted, and for the operators $|x|^{2-a}\\Delta_k$.\nHere $k$ denotes a non-negative multiplicity function for the Dunkl Laplacian\n$\\Delta_k$ and $a$ denotes a positive real number satisfying certain\nconditions. The cases $a=1,2$ were studied previously. We consider more general\ncases here. The proof depends on symbol-type estimates of special functions and\na discrete analog of the stationary phase theorem inspired by the work of\nIonescu-Jerison.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:44:22 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Taira","Kouichi",""],["Tamori","Hiroyoshi",""]]}
+{"id":"2308.16816","submitter":"Jeevan Jankar","authors":"Jeevan Jankar (1), Jie Yang (2) and Abhyuday Mandal (1) ((1)\n Department of Statistics, University of Georgia, Athens, 30602, GA, (2)\n Department of Mathematics, Statistics, and Computer Science, University of\n Illinois at Chicago, Chicago, 60607, IL.)","title":"A General Equivalence Theorem for Crossover Designs under Generalized\n Linear Models","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"stat.ME","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" With the help of Generalized Estimating Equations, we identify locally\nD-optimal crossover designs for generalized linear models. We adopt the\nvariance of parameters of interest as the objective function, which is\nminimized using constrained optimization to obtain optimal crossover designs.\nIn this case, the traditional general equivalence theorem could not be used\ndirectly to check the optimality of obtained designs. In this manuscript, we\nderive a corresponding general equivalence theorem for crossover designs under\ngeneralized linear models.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:46:48 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Jankar","Jeevan",""],["Yang","Jie",""],["Mandal","Abhyuday",""]]}
+{"id":"2308.16817","submitter":"Nicolas Raymond","authors":"Rayan Fahs, Lo\\\"ic Le Treust, Nicolas Raymond, San Vu Ngoc","title":"Boundary states of the Robin magnetic Laplacian","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math-ph math.MP math.SP","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This article tackles the spectral analysis of the Robin Laplacian on a smooth\nbounded two-dimensional domain in the presence of a constant magnetic field. In\nthe semiclassical limit, a uniform description of the spectrum located between\nthe Landau levels is obtained. The corresponding eigenfunctions, called edge\nstates, are exponentially localized near the boundary. By means of a microlocal\ndimensional reduction, our unifying approach allows on the one hand to derive a\nvery precise Weyl law and a proof of quantum magnetic oscillations for excited\nstates, and on the other hand to refine simultaneously old results about the\nlow-lying eigenvalues in the Robin case and recent ones about edge states in\nthe Dirichlet case.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:49:21 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Fahs","Rayan",""],["Treust","Lo\u00efc Le",""],["Raymond","Nicolas",""],["Ngoc","San Vu",""]]}
+{"id":"2308.16818","submitter":"Weijia Zhang","authors":"Weijia Zhang, Le Zhang, Jindong Han, Hao Liu, Jingbo Zhou, Yu Mei, Hui\n Xiong","title":"Irregular Traffic Time Series Forecasting Based on Asynchronous\n Spatio-Temporal Graph Convolutional Network","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Accurate traffic forecasting at intersections governed by intelligent traffic\nsignals is critical for the advancement of an effective intelligent traffic\nsignal control system. However, due to the irregular traffic time series\nproduced by intelligent intersections, the traffic forecasting task becomes\nmuch more intractable and imposes three major new challenges: 1) asynchronous\nspatial dependency, 2) irregular temporal dependency among traffic data, and 3)\nvariable-length sequence to be predicted, which severely impede the performance\nof current traffic forecasting methods. To this end, we propose an Asynchronous\nSpatio-tEmporal graph convolutional nEtwoRk (ASeer) to predict the traffic\nstates of the lanes entering intelligent intersections in a future time window.\nSpecifically, by linking lanes via a traffic diffusion graph, we first propose\nan Asynchronous Graph Diffusion Network to model the asynchronous spatial\ndependency between the time-misaligned traffic state measurements of lanes.\nAfter that, to capture the temporal dependency within irregular traffic state\nsequence, a learnable personalized time encoding is devised to embed the\ncontinuous time for each lane. Then we propose a Transformable Time-aware\nConvolution Network that learns meta-filters to derive time-aware convolution\nfilters with transformable filter sizes for efficient temporal convolution on\nthe irregular sequence. Furthermore, a Semi-Autoregressive Prediction Network\nconsisting of a state evolution unit and a semiautoregressive predictor is\ndesigned to effectively and efficiently predict variable-length traffic state\nsequences. Extensive experiments on two real-world datasets demonstrate the\neffectiveness of ASeer in six metrics.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:49:21 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zhang","Weijia",""],["Zhang","Le",""],["Han","Jindong",""],["Liu","Hao",""],["Zhou","Jingbo",""],["Mei","Yu",""],["Xiong","Hui",""]]}
+{"id":"2308.16819","submitter":"Johannes Wolf K\\\"unzel","authors":"Johannes K\\\"unzel, Anna Hilsmann, Peter Eisert","title":"BTSeg: Barlow Twins Regularization for Domain Adaptation in Semantic\n Segmentation","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Semantic image segmentation is a critical component in many computer vision\nsystems, such as autonomous driving. In such applications, adverse conditions\n(heavy rain, night time, snow, extreme lighting) on the one hand pose specific\nchallenges, yet are typically underrepresented in the available datasets.\nGenerating more training data is cumbersome and expensive, and the process\nitself is error-prone due to the inherent aleatoric uncertainty. To address\nthis challenging problem, we propose BTSeg, which exploits image-level\ncorrespondences as weak supervision signal to learn a segmentation model that\nis agnostic to adverse conditions. To this end, our approach uses the Barlow\ntwins loss from the field of unsupervised learning and treats images taken at\nthe same location but under different adverse conditions as \"augmentations\" of\nthe same unknown underlying base image. This allows the training of a\nsegmentation model that is robust to appearance changes introduced by different\nadverse conditions. We evaluate our approach on ACDC and the new challenging\nACG benchmark to demonstrate its robustness and generalization capabilities.\nOur approach performs favorably when compared to the current state-of-the-art\nmethods, while also being simpler to implement and train. The code will be\nreleased upon acceptance.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:49:53 GMT"}],"update_date":"2023-09-01","authors_parsed":[["K\u00fcnzel","Johannes",""],["Hilsmann","Anna",""],["Eisert","Peter",""]]}
+{"id":"2308.16820","submitter":"Seunghun Jeon","authors":"Seunghun Jeon, Moonkyu Jung, Suyoung Choi, Beomjoon Kim, Jemin Hwangbo","title":"Learning Whole-body Manipulation for Quadrupedal Robot","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.RO","license":"http://creativecommons.org/licenses/by-sa/4.0/","abstract":" We propose a learning-based system for enabling quadrupedal robots to\nmanipulate large, heavy objects using their whole body. Our system is based on\na hierarchical control strategy that uses the deep latent variable embedding\nwhich captures manipulation-relevant information from interactions,\nproprioception, and action history, allowing the robot to implicitly understand\nobject properties. We evaluate our framework in both simulation and real-world\nscenarios. In the simulation, it achieves a success rate of 93.6 % in\naccurately re-positioning and re-orienting various objects within a tolerance\nof 0.03 m and 5 {\\deg}. Real-world experiments demonstrate the successful\nmanipulation of objects such as a 19.2 kg water-filled drum and a 15.3 kg\nplastic box filled with heavy objects while the robot weighs 27 kg. Unlike\nprevious works that focus on manipulating small and light objects using\nprehensile manipulation, our framework illustrates the possibility of using\nquadrupeds for manipulating large and heavy objects that are ungraspable with\nthe robot's entire body. Our method does not require explicit object modeling\nand offers significant computational efficiency compared to optimization-based\nmethods. The video can be found at $\\href{https://youtu.be/fO_PVr27QxU}{this \\\nhttp \\ URL}$.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:50:22 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Jeon","Seunghun",""],["Jung","Moonkyu",""],["Choi","Suyoung",""],["Kim","Beomjoon",""],["Hwangbo","Jemin",""]]}
+{"id":"2308.16821","submitter":"Heliudson Bernardo","authors":"Heliudson Bernardo, Fangyi Guo","title":"Brane motion in a compact space: adiabatic perturbations of brane-bulk\n coupled fluids","comments":"15 pages, 3 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-th astro-ph.CO gr-qc","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" When a brane is moving in a compact space, bulk-probing signals originating\nat the brane can arrive back at the brane outside the lightcone of the emitting\nevent. In this letter, we study how adiabatic perturbations in the brane fluid,\ncoupled to a bulk fluid, propagate in the moving brane. In the non-dissipative\nregime, we find an effective sound speed for such perturbations, depending on\nthe brane and bulk fluid energy densities, equations of state, and brane speed.\nIn the tight-coupling approximation, the effective sound speed might be\nsuperluminal for brane and bulk fluids that satisfy the strong energy\ncondition. This has immediate consequences for brane-world cosmology models.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:51:56 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Bernardo","Heliudson",""],["Guo","Fangyi",""]]}
+{"id":"2308.16822","submitter":"Arthur Leroy","authors":"Chunchao Ma, Arthur Leroy, Mauricio Alvarez","title":"Latent Variable Multi-output Gaussian Processes for Hierarchical\n Datasets","comments":"29 pages","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" Multi-output Gaussian processes (MOGPs) have been introduced to deal with\nmultiple tasks by exploiting the correlations between different outputs.\nGenerally, MOGPs models assume a flat correlation structure between the\noutputs. However, such a formulation does not account for more elaborate\nrelationships, for instance, if several replicates were observed for each\noutput (which is a typical setting in biological experiments). This paper\nproposes an extension of MOGPs for hierarchical datasets (i.e. datasets for\nwhich the relationships between observations can be represented within a tree\nstructure). Our model defines a tailored kernel function accounting for\nhierarchical structures in the data to capture different levels of correlations\nwhile leveraging the introduction of latent variables to express the underlying\ndependencies between outputs through a dedicated kernel. This latter feature is\nexpected to significantly improve scalability as the number of tasks increases.\nAn extensive experimental study involving both synthetic and real-world data\nfrom genomics and motion capture is proposed to support our claims.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:52:35 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Ma","Chunchao",""],["Leroy","Arthur",""],["Alvarez","Mauricio",""]]}
+{"id":"2308.16823","submitter":"Luca Carai","authors":"Marco Abbadini, Guram Bezhanishvili, Luca Carai","title":"Vietoris endofunctor for closed relations and its de Vries dual","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.GN math.LO","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We generalize the classic Vietoris endofunctor to the category of compact\nHausdorff spaces and closed relations. The lift of a closed relation is done by\ngeneralizing the construction of the Egli-Milner order. We describe the dual\nendofunctor on the category of de Vries algebras and subordinations. This is\ndone in several steps, by first generalizing the construction of Venema and\nVosmaer to the category of boolean algebras and subordinations, then lifting it\nup to $\\mathsf{S5}$-subordination algebras, and finally using MacNeille\ncompletions to further lift it to de Vries algebras. Among other things, this\nyields a generalization of Johnstone's pointfree construction of the Vietoris\nendofunctor to the category of compact regular frames and preframe\nhomomorphisms.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:53:29 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Abbadini","Marco",""],["Bezhanishvili","Guram",""],["Carai","Luca",""]]}
+{"id":"2308.16824","submitter":"Daoguang Zan","authors":"Daoguang Zan, Ailun Yu, Bo Shen, Jiaxin Zhang, Taihong Chen, Bing\n Geng, Bei Chen, Jichuan Ji, Yafen Yao, Yongji Wang, Qianxiang Wang","title":"Can Programming Languages Boost Each Other via Instruction Tuning?","comments":"Work in progress","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CL cs.AI cs.PL cs.SE","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" When human programmers have mastered a programming language, it would be\neasier when they learn a new programming language. In this report, we focus on\nexploring whether programming languages can boost each other during the\ninstruction fine-tuning phase of code large language models. We conduct\nextensive experiments of 8 popular programming languages (Python, JavaScript,\nTypeScript, C, C++, Java, Go, HTML) on StarCoder. Results demonstrate that\nprogramming languages can significantly improve each other. For example,\nCodeM-Python 15B trained on Python is able to increase Java by an absolute\n17.95% pass@1 on HumanEval-X. More surprisingly, we found that CodeM-HTML 7B\ntrained on the HTML corpus can improve Java by an absolute 15.24% pass@1. Our\ntraining data is released at https://github.com/NL2Code/CodeM.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:53:51 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zan","Daoguang",""],["Yu","Ailun",""],["Shen","Bo",""],["Zhang","Jiaxin",""],["Chen","Taihong",""],["Geng","Bing",""],["Chen","Bei",""],["Ji","Jichuan",""],["Yao","Yafen",""],["Wang","Yongji",""],["Wang","Qianxiang",""]]}
+{"id":"2308.16825","submitter":"Jianxiong Gao","authors":"Jianxiong Gao, Xuelin Qian, Yikai Wang, Tianjun Xiao, Tong He, Zheng\n Zhang and Yanwei Fu","title":"Coarse-to-Fine Amodal Segmentation with Shape Prior","comments":"Accepted to ICCV 2023","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Amodal object segmentation is a challenging task that involves segmenting\nboth visible and occluded parts of an object. In this paper, we propose a novel\napproach, called Coarse-to-Fine Segmentation (C2F-Seg), that addresses this\nproblem by progressively modeling the amodal segmentation. C2F-Seg initially\nreduces the learning space from the pixel-level image space to the\nvector-quantized latent space. This enables us to better handle long-range\ndependencies and learn a coarse-grained amodal segment from visual features and\nvisible segments. However, this latent space lacks detailed information about\nthe object, which makes it difficult to provide a precise segmentation\ndirectly. To address this issue, we propose a convolution refine module to\ninject fine-grained information and provide a more precise amodal object\nsegmentation based on visual features and coarse-predicted segmentation. To\nhelp the studies of amodal object segmentation, we create a synthetic amodal\ndataset, named as MOViD-Amodal (MOViD-A), which can be used for both image and\nvideo amodal object segmentation. We extensively evaluate our model on two\nbenchmark datasets: KINS and COCO-A. Our empirical results demonstrate the\nsuperiority of C2F-Seg. Moreover, we exhibit the potential of our approach for\nvideo amodal object segmentation tasks on FISHBOWL and our proposed MOViD-A.\nProject page at: http://jianxgao.github.io/C2F-Seg.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:56:29 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Gao","Jianxiong",""],["Qian","Xuelin",""],["Wang","Yikai",""],["Xiao","Tianjun",""],["He","Tong",""],["Zhang","Zheng",""],["Fu","Yanwei",""]]}
+{"id":"2308.16826","submitter":"Kathryn Lester","authors":"Kathryn Lester, Steve Howell, Rachel Matson, Elise Furlan, Crystal\n Gnilka, Colin Littlefield, David Ciardi, Mark Everett, Sergio Fajardo-Acosta,\n and Catherine Clark","title":"Visual Orbits & Alignments of Planet Hosting Binary Systems","comments":"Accepted for publication in AJ","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.SR astro-ph.EP","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Roughly half of Solar-type planet hosts have stellar companions, so\nunderstanding how these binary companions affect the formation and evolution of\nplanets is an important component to understanding planetary systems overall.\nMeasuring the dynamical properties of planet host binaries enables a valuable\ntest of planet formation in multi-star systems and requires knowledge of the\nbinary orbital parameters. Using high resolution imaging, we have measured the\nrelative astrometry and visual orbits of 13 binary systems where one of the\nstars is known to host a transiting exoplanet. Our results indicate that the\nmutual inclination between the orbits of the binary hosts and the transiting\nplanets are well aligned. Our results for close binary systems (a<100 AU)\ncomplement past work for wide planet host binaries from Gaia.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:56:39 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Lester","Kathryn",""],["Howell","Steve",""],["Matson","Rachel",""],["Furlan","Elise",""],["Gnilka","Crystal",""],["Littlefield","Colin",""],["Ciardi","David",""],["Everett","Mark",""],["Fajardo-Acosta","Sergio",""],["Clark","Catherine",""]]}
+{"id":"2308.16827","submitter":"Ali Hadizadeh Moghadam","authors":"Ali Hadizadeh Moghadam, Payman Kazemikhah, Hossein Aghababa","title":"Using 1-Factorization from Graph Theory for Quantum Speedups on Clique\n Problems","comments":"14 pages, 8 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"quant-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" The clique problems, including $k$-CLIQUE and Triangle Finding, form an\nimportant class of computational problems; the former is an NP-complete\nproblem, while the latter directly gives lower bounds for Matrix\nMultiplication. A number of previous efforts have approached these problems\nwith Quantum Computing methods, such as Amplitude Amplification. In this paper,\nwe provide new Quantum oracle designs based on the 1-factorization of complete\ngraphs, all of which have depth $O(n)$ instead of the $O(n^2)$ presented in\nprevious studies. Also, we discuss the usage of one of these oracles in\nbringing the Triangle Finding time complexity down to $O(n^{2.25} poly(log\nn))$, compared to the $O(n^{2.38})$ classical record. Finally, we benchmark the\nnumber of required Amplitude Amplification iterations for another presented\noracle, for solving $k$-CLIQUE.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 15:59:35 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Moghadam","Ali Hadizadeh",""],["Kazemikhah","Payman",""],["Aghababa","Hossein",""]]}
+{"id":"2308.16828","submitter":"Rishabh Datta","authors":"Rishabh Datta, Faez Ahmed, Jack D Hare","title":"Machine learning assisted analysis of visible spectroscopy in\n pulsed-power-driven plasmas","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.plasm-ph physics.optics","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We use machine learning models to predict ion density and electron\ntemperature from visible emission spectra, in a high energy density\npulsed-power-driven aluminum plasma, generated by an exploding wire array.\nRadiation transport simulations, which use spectral emissivity and opacity\nvalues generated using the collisional-radiative code PrismSPECT, are used to\ndetermine the spectral intensity generated by the plasma along the\nspectrometer's line of sight. The spectra exhibit Al-II and Al-III lines, whose\nline ratios and line widths vary with the density and temperature of the\nplasma. These calculations provide a 2500-size synthetic dataset of\n400-dimensional intensity spectra, which is used to train and compare the\nperformance of multiple machine learning models on a 3-variable regression\ntask. The AutoGluon model performs best, with an R2-score of roughly 98% for\ndensity and temperature predictions. Simpler models (random forest, k-nearest\nneighbor, and deep neural network) also exhibit high R2-scores (>90%) for\ndensity and temperature predictions. These results demonstrate the potential of\nmachine learning in providing rapid or real-time analysis of emission\nspectroscopy data in pulsed-power-driven plasmas.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 16:02:27 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Datta","Rishabh",""],["Ahmed","Faez",""],["Hare","Jack D",""]]}
+{"id":"2308.16829","submitter":"Annalisa Cardellini","authors":"Martina Crippa, Annalisa Cardellini, Matteo Cioni, G\\'abor Cs\\'anyi,\n and Giovanni M. Pavan","title":"Machine learning of microscopic structure-dynamics relationships in\n complex molecular systems","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"physics.chem-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In many complex molecular systems, the macroscopic ensemble's properties are\ncontrolled by microscopic dynamic events (or fluctuations) that are often\ndifficult to detect via pattern-recognition approaches. Discovering the\nrelationships between local structural environments and the dynamical events\noriginating from them would allow unveiling microscopic level\nstructure-dynamics relationships fundamental to understand the macroscopic\nbehavior of complex systems. Here we show that, by coupling advanced structural\n(e.g., Smooth Overlap of Atomic Positions, SOAP) with local dynamical\ndescriptors (e.g., Local Environment and Neighbor Shuffling, LENS) in a unique\ndataset, it is possible to improve both individual SOAP- and LENS-based\nanalyses, obtaining a more complete characterization of the system under study.\nAs representative examples, we use various molecular systems with diverse\ninternal structural dynamics. On the one hand, we demonstrate how the\ncombination of structural and dynamical descriptors facilitates decoupling\nrelevant dynamical fluctuations from noise, overcoming the intrinsic limits of\nthe individual analyses. Furthermore, machine learning approaches also allow\nextracting from such combined structural/dynamical dataset useful\nmicroscopic-level relationships, relating key local dynamical events (e.g.,\nLENS fluctuations) occurring in the systems to the local structural (SOAP)\nenvironments they originate from. Given its abstract nature, we believe that\nsuch an approach will be useful in revealing hidden microscopic\nstructure-dynamics relationships fundamental to rationalize the behavior of a\nvariety of complex systems, not necessarily limited to the atomistic and\nmolecular scales.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 16:02:55 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Crippa","Martina",""],["Cardellini","Annalisa",""],["Cioni","Matteo",""],["Cs\u00e1nyi","G\u00e1bor",""],["Pavan","Giovanni M.",""]]}
+{"id":"2308.16830","submitter":"Mingao Yuan","authors":"Mingao Yuan","title":"On the Randi\\'{c} index and its variants of network data","comments":"to appear","journal-ref":"TEST 2023","doi":null,"report-no":null,"categories":"math.ST stat.TH","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" Summary statistics play an important role in network data analysis. They can\nprovide us with meaningful insight into the structure of a network. The\nRandi\\'{c} index is one of the most popular network statistics that has been\nwidely used for quantifying information of biological networks, chemical\nnetworks, pharmacologic networks, etc. A topic of current interest is to find\nbounds or limits of the Randi\\'{c} index and its variants. A number of bounds\nof the indices are available in literature. Recently, there are several\nattempts to study the limits of the indices in the Erd\\H{o}s-R\\'{e}nyi random\ngraph by simulation. In this paper, we shall derive the limits of the\nRandi\\'{c} index and its variants of an inhomogeneous Erd\\H{o}s-R\\'{e}nyi\nrandom graph. Our results charaterize how network heterogeneity affects the\nindices and provide new insights about the Randi\\'{c} index and its variants.\nFinally we apply the indices to several real-world networks.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 16:03:51 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Yuan","Mingao",""]]}
+{"id":"2308.16831","submitter":"Steven Redford","authors":"Steven A. Redford, Jonathan Colen, Jordan L. Shivers, Sasha Zemsky,\n Mehdi Molaei, Carlos Floyd, Paul V. Ruijgrok, Vincenzo Vitelli, Zev Bryant,\n Aaron R. Dinner, and Margaret L. Gardel","title":"Motor crosslinking augments elasticity in active nematics","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.soft physics.bio-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" In active materials, uncoordinated internal stresses lead to emergent\nlong-range flows. An understanding of how the behavior of active materials\ndepends on mesoscopic (hydrodynamic) parameters is developing, but there\nremains a gap in knowledge concerning how hydrodynamic parameters depend on the\nproperties of microscopic elements. In this work, we combine experiments and\nmultiscale modeling to relate the structure and dynamics of active nematics\ncomposed of biopolymer filaments and molecular motors to their microscopic\nproperties, in particular motor processivity, speed, and valency. We show that\ncrosslinking of filaments by both motors and passive crosslinkers not only\naugments the contributions to nematic elasticity from excluded volume effects\nbut dominates them. By altering motor kinetics we show that a competition\nbetween motor speed and crosslinking results in a nonmonotonic dependence of\nnematic flow on motor speed. By modulating passive filament crosslinking we\nshow that energy transfer into nematic flow is in large part dictated by\ncrosslinking. Thus motor proteins both generate activity and contribute to\nnematic elasticity. Our results provide new insights for rationally engineering\nactive materials.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 16:05:29 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Redford","Steven A.",""],["Colen","Jonathan",""],["Shivers","Jordan L.",""],["Zemsky","Sasha",""],["Molaei","Mehdi",""],["Floyd","Carlos",""],["Ruijgrok","Paul V.",""],["Vitelli","Vincenzo",""],["Bryant","Zev",""],["Dinner","Aaron R.",""],["Gardel","Margaret L.",""]]}
+{"id":"2308.16832","submitter":"Randy Fishman","authors":"R.S. Fishman, T. Berlijn, J. Villanova, and L. Lindsay","title":"Magnon Orbital Angular Momentum of Ferromagnetic Honeycomb and Zig-Zag\n Lattices","comments":"13 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mtrl-sci","license":"http://creativecommons.org/licenses/by-nc-sa/4.0/","abstract":" By expanding the gauge $\\lambda_n(k)$ for magnon band $n$ in harmonics of\nmomentum ${\\bf k} =(k,\\phi )$, we demonstrate that the only observable\ncomponent of the magnon orbital angular momentum $O_n({\\bf k})$ is its angular\naverage over all angles $\\phi$, denoted by $F_n(k)$. For both the FM honeycomb\nand zig-zag lattices, we show that $F_n(k)$ is nonzero in the presence of a\nDzyalloshinzkii-Moriya (DM) interaction. The FM zig-zag lattice model with\nexchange interactions $0
1\nmicron for the first time. We revise the stellar mass estimates using new JWST\nphotometry and find good agreement with pre-JWST analysis; the few\ndiscrepancies can be explained by blending issues in the earlier\nlower-resolution Spitzer data. At z~2.5, the resolved rest-frame near-infrared\n(1.6 micron) structure of the galaxies is significantly more smooth and\ncentrally concentrated than seen by HST at rest-frame 450 nm (F160W), with\neffective radii of Re(F560W)=1-5 kpc and S\\'ersic indices mostly close to an\nexponential (disk-like) profile (n~1), up to n~5 (excluding AGN). We find an\naverage size ratio of Re(F560W)/Re(F160W)~0.7 that decreases with stellar mass.\nThe stellar structure of the ALMA-selected galaxies is indistinguishable from a\nHUDF reference sample of galaxies with comparable MIRI flux density. We\nsupplement our analysis with custom-made, position-dependent, empirical PSF\nmodels for the F560W observations. The results imply that an older and smoother\nstellar structure is in place in massive gas-rich, star-forming galaxies at\nCosmic Noon, despite a more clumpy rest-frame optical appearance, placing\nadditional constraints on galaxy formation simulations. As a next step,\nmatched-resolution, resolved ALMA observations will be crucial to further link\nthe mass- and light-weighted galaxy structures to the dusty interstellar\nmedium.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 17:57:04 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Boogaard","Leindert A.",""],["Gillman","Steven",""],["Melinder","Jens",""],["Walter","Fabian",""],["Colina","Luis",""],["\u00d6stlin","G\u00f6ran",""],["Caputi","Karina I.",""],["Iani","Edoardo",""],["P\u00e9rez-Gonz\u00e1lez","Pablo",""],["van der Werf","Paul",""],["Greve","Thomas R.",""],["Wright","Gillian",""],["Alonso-Herrero","Almudena",""],["\u00c1lvarez-M\u00e1rquez","Javier",""],["Annunziatella","Marianna",""],["Bik","Arjan",""],["Bosman","Sarah",""],["Costantin","Luca",""],["G\u00f3mez","Alejandro Crespo",""],["Dicken","Dan",""],["Eckart","Andreas",""],["Hjorth","Jens",""],["Jermann","Iris",""],["Labiano","Alvaro",""],["Langeroodi","Danial",""],["Meyer","Romain A.",""],["Pei\u00dfker","Florian",""],["Pye","John P.",""],["Rinaldi","Pierluigi",""],["Tikkanen","Tuomo V.",""],["Topinka","Martin",""],["Henning","Thomas",""]]}
+{"id":"2308.16896","submitter":"Wenzhao Zheng","authors":"Sicheng Zuo, Wenzhao Zheng, Yuanhui Huang, Jie Zhou, Jiwen Lu","title":"PointOcc: Cylindrical Tri-Perspective View for Point-based 3D Semantic\n Occupancy Prediction","comments":"Code is available at https://github.com/wzzheng/PointOcc","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV cs.AI cs.LG","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Semantic segmentation in autonomous driving has been undergoing an evolution\nfrom sparse point segmentation to dense voxel segmentation, where the objective\nis to predict the semantic occupancy of each voxel in the concerned 3D space.\nThe dense nature of the prediction space has rendered existing efficient\n2D-projection-based methods (e.g., bird's eye view, range view, etc.)\nineffective, as they can only describe a subspace of the 3D scene. To address\nthis, we propose a cylindrical tri-perspective view to represent point clouds\neffectively and comprehensively and a PointOcc model to process them\nefficiently. Considering the distance distribution of LiDAR point clouds, we\nconstruct the tri-perspective view in the cylindrical coordinate system for\nmore fine-grained modeling of nearer areas. We employ spatial group pooling to\nmaintain structural details during projection and adopt 2D backbones to\nefficiently process each TPV plane. Finally, we obtain the features of each\npoint by aggregating its projected features on each of the processed TPV planes\nwithout the need for any post-processing. Extensive experiments on both 3D\noccupancy prediction and LiDAR segmentation benchmarks demonstrate that the\nproposed PointOcc achieves state-of-the-art performance with much faster speed.\nSpecifically, despite only using LiDAR, PointOcc significantly outperforms all\nother methods, including multi-modal methods, with a large margin on the\nOpenOccupancy benchmark. Code: https://github.com/wzzheng/PointOcc.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 17:57:17 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Zuo","Sicheng",""],["Zheng","Wenzhao",""],["Huang","Yuanhui",""],["Zhou","Jie",""],["Lu","Jiwen",""]]}
+{"id":"2308.16897","submitter":"Marco Ardu","authors":"Marco Ardu, Sacha Davidson, St\\'ephane Lavignac","title":"Distinguishing models with $\\mu \\to e $ observables","comments":"14 pages, 7 Figures","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Upcoming experiments will improve the reach for the lepton flavour violating\n(LFV) processes $\\mu \\to e \\gamma$, $\\mu \\to e \\bar{e} e$ and $\\mu A \\to e A$\nby orders of magnitude. We investigate whether this upcoming data could rule\nout some popular TeV-scale LFV models (the type II seesaw, the inverse seesaw\nand a scalar leptoquark) using a bottom-up EFT approach involving twelve Wilson\ncoefficients that can in principle all be determined by experimental\nmeasurements. In this 12-dimensional coefficient space, each model can only\npredict points in a specific subspace; for instance, flavour change involving\nsinglet electrons is suppressed in the seesaw models, and the leptoquark\ninduces negligible coefficients for 4-lepton scalar operators. Using the fact\nthat none of these models can populate the whole region accessible to upcoming\nexperiments, we show that $\\mu \\to e$ experiments have the ability to rule them\nout.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 17:57:43 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Ardu","Marco",""],["Davidson","Sacha",""],["Lavignac","St\u00e9phane",""]]}
+{"id":"2308.16898","submitter":"Yingcong Li","authors":"Davoud Ataee Tarzanagh, Yingcong Li, Christos Thrampoulidis, Samet\n Oymak","title":"Transformers as Support Vector Machines","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG cs.AI cs.CL math.OC","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Since its inception in \"Attention Is All You Need\", transformer architecture\nhas led to revolutionary advancements in NLP. The attention layer within the\ntransformer admits a sequence of input tokens $X$ and makes them interact\nthrough pairwise similarities computed as softmax$(XQK^\\top X^\\top)$, where\n$(K,Q)$ are the trainable key-query parameters. In this work, we establish a\nformal equivalence between the optimization geometry of self-attention and a\nhard-margin SVM problem that separates optimal input tokens from non-optimal\ntokens using linear constraints on the outer-products of token pairs. This\nformalism allows us to characterize the implicit bias of 1-layer transformers\noptimized with gradient descent: (1) Optimizing the attention layer with\nvanishing regularization, parameterized by $(K,Q)$, converges in direction to\nan SVM solution minimizing the nuclear norm of the combined parameter\n$W=KQ^\\top$. Instead, directly parameterizing by $W$ minimizes a Frobenius norm\nobjective. We characterize this convergence, highlighting that it can occur\ntoward locally-optimal directions rather than global ones. (2) Complementing\nthis, we prove the local/global directional convergence of gradient descent\nunder suitable geometric conditions. Importantly, we show that\nover-parameterization catalyzes global convergence by ensuring the feasibility\nof the SVM problem and by guaranteeing a benign optimization landscape devoid\nof stationary points. (3) While our theory applies primarily to linear\nprediction heads, we propose a more general SVM equivalence that predicts the\nimplicit bias with nonlinear heads. Our findings are applicable to arbitrary\ndatasets and their validity is verified via experiments. We also introduce\nseveral open problems and research directions. We believe these findings\ninspire the interpretation of transformers as a hierarchy of SVMs that\nseparates and selects optimal tokens.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 17:57:50 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Tarzanagh","Davoud Ataee",""],["Li","Yingcong",""],["Thrampoulidis","Christos",""],["Oymak","Samet",""]]}
+{"id":"2308.16899","submitter":"Mehdi Behroozi","authors":"Reyhaneh Mohammadi and Mehdi Behroozi","title":"A Divide and Conquer Approximation Algorithm for Partitioning Rectangles","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.OC cs.CG","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Given a rectangle $R$ with area $A$ and a set of areas $L=\\{A_1,...,A_n\\}$\nwith $\\sum_{i=1}^n A_i = A$, we consider the problem of partitioning $R$ into\n$n$ sub-regions $R_1,...,R_n$ with areas $A_1,...,A_n$ in a way that the total\nperimeter of all sub-regions is minimized. The goal is to create square-like\nsub-regions, which are often more desired. We propose a divide and conquer\nalgorithm for this problem that finds factor $1.2$--approximate solutions in\n$\\mathcal{O}(n\\log n)$ time.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 17:58:00 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Mohammadi","Reyhaneh",""],["Behroozi","Mehdi",""]]}
+{"id":"2308.16900","submitter":"Thoranna Bender","authors":"Thoranna Bender, Simon M{\\o}e S{\\o}rensen, Alireza Kashani, K. Eldjarn\n Hjorleifsson, Grethe Hyldig, S{\\o}ren Hauberg, Serge Belongie and Frederik\n Warburg","title":"Learning to Taste: A Multimodal Wine Dataset","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.LG","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" We present WineSensed, a large multimodal wine dataset for studying the\nrelations between visual perception, language, and flavor. The dataset\nencompasses 897k images of wine labels and 824k reviews of wines curated from\nthe Vivino platform. It has over 350k unique vintages, annotated with year,\nregion, rating, alcohol percentage, price, and grape composition. We obtained\nfine-grained flavor annotations on a subset by conducting a wine-tasting\nexperiment with 256 participants who were asked to rank wines based on their\nsimilarity in flavor, resulting in more than 5k pairwise flavor distances. We\npropose a low-dimensional concept embedding algorithm that combines human\nexperience with automatic machine similarity kernels. We demonstrate that this\nshared concept embedding space improves upon separate embedding spaces for\ncoarse flavor classification (alcohol percentage, country, grape, price,\nrating) and aligns with the intricate human perception of flavor.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 17:58:28 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Bender","Thoranna",""],["S\u00f8rensen","Simon M\u00f8e",""],["Kashani","Alireza",""],["Hjorleifsson","K. Eldjarn",""],["Hyldig","Grethe",""],["Hauberg","S\u00f8ren",""],["Belongie","Serge",""],["Warburg","Frederik",""]]}
+{"id":"2308.16901","submitter":"CaiChang Li","authors":"Cai-Chang Li, Gui-Jun Ding","title":"Eclectic flavor group $\\Delta(27)\\rtimes S_3$ and lepton model building","comments":"33 pages, 2 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We have performed a systematical study of the eclectic flavor group\n$\\Delta(27)\\rtimes S_3$ which is the extension of the traditional flavor\nsymmetry $\\Delta(27)$ by the modular symmetry group $S_3$. Consistency between\n$\\Delta(27)$ and $S_3$ requires that the eight nontrivial singlet\nrepresentations of $\\Delta(27)$ should be arranged into four reducible\ndoublets. The modular transformation matrices are determined for various\n$\\Delta(27)$ multiplets, and the generalized CP symmetry compatible with\n$\\Delta(27)\\rtimes S_3$ are discussed. We study the general form of the\nK\\\"ahler potential and superpotential invariant under $\\Delta(27)\\rtimes S_3$,\nand the corresponding fermion mass matrices are presented. We propose a\nbottom-up model for lepton masses and mixing based on $\\Delta(27)\\rtimes\nS_{3}$, a numerical analysis is performed and the experimental data can be\naccommodated.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 17:58:30 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Li","Cai-Chang",""],["Ding","Gui-Jun",""]]}
+{"id":"2308.16902","submitter":"Joachim Neu","authors":"Joachim Neu, Ertem Nusret Tas, David Tse","title":"Accountable Safety Implies Finality","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Motivated by proof-of-stake (PoS) blockchains such as Ethereum, two key\ndesiderata have recently been studied for Byzantine-fault tolerant (BFT)\nstate-machine replication (SMR) consensus protocols: Finality means that the\nprotocol retains consistency, as long as less than a certain fraction of\nvalidators are malicious, even in partially-synchronous environments that allow\nfor temporary violations of assumed network delay bounds. Accountable safety\nmeans that in any case of inconsistency, a certain fraction of validators can\nbe identified to have provably violated the protocol. Earlier works have\ndeveloped impossibility results and protocol constructions for these properties\nseparately. We show that accountable safety implies finality, thereby unifying\nearlier results.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 17:58:38 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Neu","Joachim",""],["Tas","Ertem Nusret",""],["Tse","David",""]]}
+{"id":"2308.16903","submitter":"Claudia Cornella","authors":"Claudia Cornella, Anne Mareike Galda, Matthias Neubert, Daniel Wyler","title":"$K^-\\to\\pi^- a$ at Next-to-Leading Order in Chiral Perturbation Theory","comments":"35 pages, 8 figures","journal-ref":null,"doi":null,"report-no":null,"categories":"hep-ph","license":"http://creativecommons.org/publicdomain/zero/1.0/","abstract":" The weak decay $K^-\\to\\pi^- a$ is a powerful probe of axion-like particles\n(ALPs). In this work, we provide a comprehensive analysis of this process\nwithin chiral perturbation theory, extending existing calculations by including\ncomplete next-to-leading order (NLO) contributions and isospin-breaking\ncorrections at first order in $(m_u-m_d)$. We show that the consistent\nincorporation of ALPs in the QCD and weak chiral Lagrangians requires a\nnon-trivial extension of the corresponding operator bases, which we describe in\ndetail. Furthermore, we show that in the presence of an ALP the so-called weak\nmass term, which is unobservable in the Standard Model, is non-redundant\nalready at leading order. We find that NLO corrections associated with\nflavor-violating ALP couplings modify the leading-order result by a few\npercent, with only small uncertainties. On the contrary, the NLO corrections\nproportional to flavor-conserving ALP couplings lead to an $\\mathcal{O}(20\\%)$\nreduction relative to the leading-order predictions. These corrections are\naccompanied by a large uncertainties mainly originating from the QCD low-energy\nconstant $L_{4,r}$ as well as from the presence of various unknown weak\nlow-energy constants. We emphasize the importance of a precise determination of\nthese coupling parameters for the successful study of new physics in light\nmeson decays.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 17:58:44 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Cornella","Claudia",""],["Galda","Anne Mareike",""],["Neubert","Matthias",""],["Wyler","Daniel",""]]}
+{"id":"2308.16904","submitter":"Aritra Dutta","authors":"El Houcine Bergou, Soumia Boucherouite, Aritra Dutta, Xin Li, Anna Ma","title":"A Note on Randomized Kaczmarz Algorithm for Solving Doubly-Noisy Linear\n Systems","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.NA cs.LG cs.NA math.OC","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Large-scale linear systems, $Ax=b$, frequently arise in practice and demand\neffective iterative solvers. Often, these systems are noisy due to operational\nerrors or faulty data-collection processes. In the past decade, the randomized\nKaczmarz (RK) algorithm has been studied extensively as an efficient iterative\nsolver for such systems. However, the convergence study of RK in the noisy\nregime is limited and considers measurement noise in the right-hand side\nvector, $b$. Unfortunately, in practice, that is not always the case; the\ncoefficient matrix $A$ can also be noisy. In this paper, we analyze the\nconvergence of RK for noisy linear systems when the coefficient matrix, $A$, is\ncorrupted with both additive and multiplicative noise, along with the noisy\nvector, $b$. In our analyses, the quantity $\\tilde R=\\| \\tilde A^{\\dagger}\n\\|_2^2 \\|\\tilde A \\|_F^2$ influences the convergence of RK, where $\\tilde A$\nrepresents a noisy version of $A$. We claim that our analysis is robust and\nrealistically applicable, as we do not require information about the noiseless\ncoefficient matrix, $A$, and considering different conditions on noise, we can\ncontrol the convergence of RK. We substantiate our theoretical findings by\nperforming comprehensive numerical experiments.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 17:59:00 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Bergou","El Houcine",""],["Boucherouite","Soumia",""],["Dutta","Aritra",""],["Li","Xin",""],["Ma","Anna",""]]}
+{"id":"2308.16905","submitter":"Sirui Xu","authors":"Sirui Xu, Zhengyuan Li, Yu-Xiong Wang, Liang-Yan Gui","title":"InterDiff: Generating 3D Human-Object Interactions with Physics-Informed\n Diffusion","comments":"ICCV 2023; Project Page: https://sirui-xu.github.io/InterDiff/","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV cs.AI cs.GR","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" This paper addresses a novel task of anticipating 3D human-object\ninteractions (HOIs). Most existing research on HOI synthesis lacks\ncomprehensive whole-body interactions with dynamic objects, e.g., often limited\nto manipulating small or static objects. Our task is significantly more\nchallenging, as it requires modeling dynamic objects with various shapes,\ncapturing whole-body motion, and ensuring physically valid interactions. To\nthis end, we propose InterDiff, a framework comprising two key steps: (i)\ninteraction diffusion, where we leverage a diffusion model to encode the\ndistribution of future human-object interactions; (ii) interaction correction,\nwhere we introduce a physics-informed predictor to correct denoised HOIs in a\ndiffusion step. Our key insight is to inject prior knowledge that the\ninteractions under reference with respect to contact points follow a simple\npattern and are easily predictable. Experiments on multiple human-object\ninteraction datasets demonstrate the effectiveness of our method for this task,\ncapable of producing realistic, vivid, and remarkably long-term 3D HOI\npredictions.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 17:59:08 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Xu","Sirui",""],["Li","Zhengyuan",""],["Wang","Yu-Xiong",""],["Gui","Liang-Yan",""]]}
+{"id":"2308.16906","submitter":"Xiaolong Wang","authors":"Xiaolong Wang, Runsen Xu, Zuofan Cui, Zeyu Wan, Yu Zhang","title":"Fine-Grained Cross-View Geo-Localization Using a Correlation-Aware\n Homography Estimator","comments":"19 pages. Reducing the cross-view geo-localization problem to a 2D\n image alignment problem by utilizing BEV transformation, and completing the\n alignment process with a correlation-aware homography estimator. Code:\n https://github.com/xlwangDev/HC-Net","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" In this paper, we introduce a novel approach to fine-grained cross-view\ngeo-localization. Our method aligns a warped ground image with a corresponding\nGPS-tagged satellite image covering the same area using homography estimation.\nWe first employ a differentiable spherical transform, adhering to geometric\nprinciples, to accurately align the perspective of the ground image with the\nsatellite map. This transformation effectively places ground and aerial images\nin the same view and on the same plane, reducing the task to an image alignment\nproblem. To address challenges such as occlusion, small overlapping range, and\nseasonal variations, we propose a robust correlation-aware homography estimator\nto align similar parts of the transformed ground image with the satellite\nimage. Our method achieves sub-pixel resolution and meter-level GPS accuracy by\nmapping the center point of the transformed ground image to the satellite image\nusing a homography matrix and determining the orientation of the ground camera\nusing a point above the central axis. Operating at a speed of 30 FPS, our\nmethod outperforms state-of-the-art techniques, reducing the mean metric\nlocalization error by 21.3% and 32.4% in same-area and cross-area\ngeneralization tasks on the VIGOR benchmark, respectively, and by 34.4% on the\nKITTI benchmark in same-area evaluation.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 17:59:24 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Wang","Xiaolong",""],["Xu","Runsen",""],["Cui","Zuofan",""],["Wan","Zeyu",""],["Zhang","Yu",""]]}
+{"id":"2308.16907","submitter":"Bitan Roy","authors":"Vladimir Juricic, Bitan Roy","title":"Yukawa-Lorentz Symmetry in Non-Hermitian Dirac Materials","comments":"6 Pages, 3 Figures & 1 Table (Supplemental Material as Ancillary\n File)","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.str-el cond-mat.mes-hall hep-th","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" We propose a general construction of symmetry protected Lorentz invariant\nnon-Hermitian (NH) Dirac semimetals (DSMs), realized by invoking masslike\nanti-Hermitian Dirac operators to its Hermitian counterpart. They feature\npurely real or imaginary isotropic linear band dispersion, yielding a vanishing\ndensity of states. Dynamic mass orderings in NH DSMs thus take place for strong\nHubbardlike local interactions through a quantum phase transition where nodal\nNH Dirac quasiparticles are strongly coupled with bosonic order-parameter\nfluctuations, hosting a non-Fermi liquid, beyond which the system becomes an\ninsulator. Depending on the internal Clifford algebra between the NH Dirac\noperator and candidate mass order-parameter, the resulting quantum critical\nfluid either remains coupled with the environment or recovers full Hermiticity\nby decoupling from the bath, while always enjoying an emergent Yukawa-Lorentz\nsymmetry in terms of a unique velocity. We showcase the competition between\nsuch mass orderings, their hallmarks on quasiparticle spectra in the ordered\nphases, and the relevance of our findings in correlated designer NH Dirac\nmaterials.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 17:59:27 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Juricic","Vladimir",""],["Roy","Bitan",""]]}
+{"id":"2308.16908","submitter":"Sanjib Kumar Das","authors":"Sanjib Kumar Das and Bitan Roy","title":"Quantized thermal and spin transports of dirty planar topological\n superconductors","comments":"11 pages, 4 figures, 1 Table","journal-ref":null,"doi":null,"report-no":null,"categories":"cond-mat.mes-hall cond-mat.dis-nn cond-mat.str-el cond-mat.supr-con","license":"http://creativecommons.org/licenses/by/4.0/","abstract":" Nontrivial bulk topological invariants of quantum materials can leave their\nsignatures on charge, thermal and spin transports. In two dimensions, their\nimprints can be experimentally measured from well-developed multi-terminal Hall\nbar arrangements. Here, we numerically compute the low temperature ($T$)\nthermal ($\\kappa_{xy}$) and zero temperature spin ($\\sigma^{sp}_{xy}$) Hall\nconductivities, and longitudinal thermal conductance ($G^{th}_{xx}$) of various\nparadigmatic two-dimensional fully gapped topological superconductors,\nbelonging to distinct Altland-Zirnbauer symmetry classes, namely $p+ip$ (class\nD), $d+id$ (class C) and $p \\pm ip$ (class DIII) paired states, in mesoscopic\nsix-terminal Hall bar setups from the scattering matrix formalism using Kwant.\nIn both clean and weak disorder limits, the time-reversal symmetry breaking\n$p+ip$ and $d+id$ pairings show half-quantized and quantized $\\kappa_{xy}$ [in\nunits of $\\kappa_0=\\pi^2 k^2_B T/(3h)$], respectively, while the latter one in\naddition accommodates a quantized $\\sigma^{sp}_{xy}$ [in units of\n$\\sigma^{sp}_0=\\hbar/(8 \\pi)$]. By contrast, the time-reversal invariant $p \\pm\nip$ pairing only displays a quantized $G^{th}_{xx}$ at low $T$ up to a moderate\nstrength of disorder. In the strong disorder regime, all these topological\nresponses ($\\kappa_{xy}$, $\\sigma^{sp}_{xy}$ and $G^{th}_{xx}$) vanish.\nPossible material platforms hosting such paired states and manifesting these\nrobust topological thermal and spin responses are highlighted.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 17:59:29 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Das","Sanjib Kumar",""],["Roy","Bitan",""]]}
+{"id":"2308.16909","submitter":"Yuhan Wang","authors":"Yuhan Wang, Liming Jiang, Chen Change Loy","title":"StyleInV: A Temporal Style Modulated Inversion Network for Unconditional\n Video Generation","comments":"ICCV 2023. Code: https://github.com/johannwyh/StyleInV Project page:\n https://www.mmlab-ntu.com/project/styleinv/index.html","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV cs.AI","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Unconditional video generation is a challenging task that involves\nsynthesizing high-quality videos that are both coherent and of extended\nduration. To address this challenge, researchers have used pretrained StyleGAN\nimage generators for high-quality frame synthesis and focused on motion\ngenerator design. The motion generator is trained in an autoregressive manner\nusing heavy 3D convolutional discriminators to ensure motion coherence during\nvideo generation. In this paper, we introduce a novel motion generator design\nthat uses a learning-based inversion network for GAN. The encoder in our method\ncaptures rich and smooth priors from encoding images to latents, and given the\nlatent of an initially generated frame as guidance, our method can generate\nsmooth future latent by modulating the inversion encoder temporally. Our method\nenjoys the advantage of sparse training and naturally constrains the generation\nspace of our motion generator with the inversion network guided by the initial\nframe, eliminating the need for heavy discriminators. Moreover, our method\nsupports style transfer with simple fine-tuning when the encoder is paired with\na pretrained StyleGAN generator. Extensive experiments conducted on various\nbenchmarks demonstrate the superiority of our method in generating long and\nhigh-resolution videos with decent single-frame quality and temporal\nconsistency.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 17:59:33 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Wang","Yuhan",""],["Jiang","Liming",""],["Loy","Chen Change",""]]}
+{"id":"2308.16910","submitter":"Sergio Rojas","authors":"Sergio Rojas, Pawe{\\l} Maczuga, Judit Mu\\~noz-Matute, David Pardo,\n Maciej Paszynski","title":"Robust Variational Physics-Informed Neural Networks","comments":null,"journal-ref":null,"doi":null,"report-no":null,"categories":"math.NA cs.NA","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" We introduce a Robust version of the Variational Physics-Informed Neural\nNetworks (RVPINNs) to approximate the Partial Differential Equations (PDEs)\nsolution. We start from a weak Petrov-Galerkin formulation of the problem,\nselect a discrete test space, and define a quadratic loss functional as in\nVPINNs. Whereas in VPINNs the loss depends upon the selected basis functions of\na given test space, herein we minimize a loss based on the residual in the\ndiscrete dual norm, which is independent of the test space's choice of test\nbasis functions. We demonstrate that this loss is a reliable and efficient\nestimator of the true error in the energy norm. The proposed loss function\nrequires computation of the Gram matrix inverse, similar to what occurs in\ntraditional residual minimization methods. To validate our theoretical\nfindings, we test the performance and robustness of our algorithm in several\nadvection-dominated-diffusion problems in one spatial dimension. We conclude\nthat RVPINNs is a robust method.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 17:59:44 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Rojas","Sergio",""],["Maczuga","Pawe\u0142",""],["Mu\u00f1oz-Matute","Judit",""],["Pardo","David",""],["Paszynski","Maciej",""]]}
+{"id":"2308.16911","submitter":"Runsen Xu","authors":"Runsen Xu, Xiaolong Wang, Tai Wang, Yilun Chen, Jiangmiao Pang, Dahua\n Lin","title":"PointLLM: Empowering Large Language Models to Understand Point Clouds","comments":"19 pages. Empowering large language models with 3D point cloud\n understanding, accompanied by a novel dataset and carefully designed\n benchmarks. Project page: https://runsenxu.com/projects/PointLLM","journal-ref":null,"doi":null,"report-no":null,"categories":"cs.CV cs.AI cs.CL","license":"http://creativecommons.org/licenses/by-nc-nd/4.0/","abstract":" The unprecedented advancements in Large Language Models (LLMs) have created a\nprofound impact on natural language processing but are yet to fully embrace the\nrealm of 3D understanding. This paper introduces PointLLM, a preliminary effort\nto fill this gap, thereby enabling LLMs to understand point clouds and offering\na new avenue beyond 2D visual data. PointLLM processes colored object point\nclouds with human instructions and generates contextually appropriate\nresponses, illustrating its grasp of point clouds and common sense.\nSpecifically, it leverages a point cloud encoder with a powerful LLM to\neffectively fuse geometric, appearance, and linguistic information. We collect\na novel dataset comprising 660K simple and 70K complex point-text instruction\npairs to enable a two-stage training strategy: initially aligning latent spaces\nand subsequently instruction-tuning the unified model. To rigorously evaluate\nour model's perceptual abilities and its generalization capabilities, we\nestablish two benchmarks: Generative 3D Object Classification and 3D Object\nCaptioning, assessed through three different methods, including human\nevaluation, GPT-4/ChatGPT evaluation, and traditional metrics. Experiment\nresults show that PointLLM demonstrates superior performance over existing 2D\nbaselines. Remarkably, in human-evaluated object captioning tasks, PointLLM\noutperforms human annotators in over 50% of the samples. Codes, datasets, and\nbenchmarks are available at https://github.com/OpenRobotLab/PointLLM .\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 17:59:46 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Xu","Runsen",""],["Wang","Xiaolong",""],["Wang","Tai",""],["Chen","Yilun",""],["Pang","Jiangmiao",""],["Lin","Dahua",""]]}
+{"id":"2308.16912","submitter":"Bin Ren Dr.","authors":"Bin B. Ren","title":"Karhunen-Lo\\`eve Data Imputation in High Contrast Imaging","comments":"7 pages, 5 figures, A&A accepted","journal-ref":null,"doi":null,"report-no":null,"categories":"astro-ph.IM astro-ph.EP astro-ph.GA astro-ph.SR stat.ML","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","abstract":" Detection and characterization of extended structures is a crucial goal in\nhigh contrast imaging. However, these structures face challenges in data\nreduction, leading to over-subtraction from speckles and self-subtraction with\nmost existing methods. Iterative post-processing methods offer promising\nresults, but their integration into existing pipelines is hindered by selective\nalgorithms, high computational cost, and algorithmic regularization. To address\nthis for reference differential imaging (RDI), here we propose the data\nimputation concept to Karhunen-Lo\\`eve transform (DIKL) by modifying two steps\nin the standard Karhunen-Lo\\`eve image projection (KLIP) method. Specifically,\nwe partition an image to two matrices: an anchor matrix which focuses only on\nthe speckles to obtain the DIKL coefficients, and a boat matrix which focuses\non the regions of astrophysical interest for speckle removal using DIKL\ncomponents. As an analytical approach, DIKL achieves high-quality results with\nsignificantly reduced computational cost (~3 orders of magnitude less than\niterative methods). Being a derivative method of KLIP, DIKL is seamlessly\nintegrable into high contrast imaging pipelines for RDI observations.\n","versions":[{"version":"v1","created":"Thu, 31 Aug 2023 17:59:59 GMT"}],"update_date":"2023-09-01","authors_parsed":[["Ren","Bin B.",""]]}