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Information Card for Brat
Description
- Homepage: https://brat.nlplab.org
- Paper: https://aclanthology.org/E12-2021/
- Leaderboard: [Needs More Information]
- Point of Contact: [Needs More Information]
Summary
Brat is an intuitive web-based tool for text annotation supported by Natural Language Processing (NLP) technology. BRAT has been developed for rich structured annota- tion for a variety of NLP tasks and aims to support manual curation efforts and increase annotator productivity using NLP techniques. brat is designed in particular for structured annotation, where the notes are not free form text but have a fixed form that can be automatically processed and interpreted by a computer.
Dataset Structure
Dataset annotated with brat format is processed using this script. Annotations created in brat are stored on disk in a standoff format: annotations are stored separately from the annotated document text, which is never modified by the tool. For each text document in the system, there is a corresponding annotation file. The two are associated by the file naming convention that their base name (file name without suffix) is the same: for example, the file DOC-1000.ann contains annotations for the file DOC-1000.txt. More information can be found here.
Data Instances
{
"context": ''<?xml version="1.0" encoding="UTF-8" standalone="no"?>\n<Document xmlns:gate="http://www.gat...'
"file_name": "A01"
"spans": {
'id': ['T1', 'T2', 'T4', 'T5', 'T6', 'T3', 'T7', 'T8', 'T9', 'T10', 'T11', 'T12',...]
'type': ['background_claim', 'background_claim', 'background_claim', 'own_claim',...]
'locations': [{'start': [2417], 'end': [2522]}, {'start': [2524], 'end': [2640]},...]
'text': ['complicated 3D character models...', 'The range of breathtaking realistic...', ...]
}
"relations": {
'id': ['R1', 'R2', 'R3', 'R4', 'R5', 'R6', 'R7', 'R8', 'R9', 'R10', 'R11', 'R12',...]
'type': ['supports', 'supports', 'supports', 'supports', 'contradicts', 'contradicts',...]
'arguments': [{'type': ['Arg1', 'Arg2'], 'target': ['T4', 'T5']},...]
}
"equivalence_relations": {'type': [], 'targets': []},
"events": {'id': [], 'type': [], 'trigger': [], 'arguments': []},
"attributions": {'id': [], 'type': [], 'target': [], 'value': []},
"normalizations": {'id': [], 'type': [], 'target': [], 'resource_id': [], 'entity_id': []},
"notes": {'id': [], 'type': [], 'target': [], 'note': []},
}
Data Fields
context
(str
): the textual content of the data filefile_name
(str
): the name of the data / annotation file without extensionspans
(dict
): span annotations of thecontext
stringid
(str
): the id of the span, starts withT
type
(str
): the label of the spanlocations
(list
): the indices indicating the span's locations (multiple because of fragments), consisting ofdict
s withstart
(list
ofint
): the indices indicating the inclusive character start positions of the span fragmentsend
(list
ofint
): the indices indicating the exclusive character end positions of the span fragments
text
(list
ofstr
): the texts of the span fragments
relations
: a sequence of relations between elements ofspans
id
(str
): the id of the relation, starts withR
type
(str
): the label of the relationarguments
(list
ofdict
): the spans related to the relation, consisting ofdict
s withtype
(list
ofstr
): the argument roles of the spans in the relation, eitherArg1
orArg2
target
(list
ofstr
): the spans which are the arguments of the relation
equivalence_relations
: containstype
andtarget
(more information needed)events
: containsid
,type
,trigger
, andarguments
(more information needed)attributions
(dict
): attribute annotations of any other annotationid
(str
): the instance id of the attributiontype
(str
): the type of the attributiontarget
(str
): the id of the annotation to which the attribution is forvalue
(str
): the attribution's value or mark
normalizations
(dict
): the unique identification of the real-world entities referred to by specific text expressionsid
(str
): the instance id of the normalized entitytype
(str
): the type of the normalized entitytarget
(str
): the id of the annotation to which the normalized entity is forresource_id
(str
): the associated resource to the normalized entityentity_id
(str
): the instance id of normalized entity
notes
(dict
): a freeform text, added to the annotationid
(str
): the instance id of the notetype
(str
): the type of notetarget
(str
): the id of the related annotationnote
(str
): the text body of the note
Usage
The brat
dataset script can be used by calling load_dataset()
method and passing any arguments that are accepted by the BratConfig
(which is a special BuilderConfig). It requires at least the url
argument. The full list of arguments is as follows:
url
(str
): the url of the dataset which should point to either a zip file or a directory containing the Brat data (*.txt
) and annotation (*.ann
) filesdescription
(str
, optional): the description of the datasetcitation
(str
, optional): the citation of the datasethomepage
(str
, optional): the homepage of the datasetsplit_paths
(dict
, optional): a mapping of (arbitrary) split names to subdirectories or lists of files (without extension), e.g.{"train": "path/to/train_directory", "test": "path/to/test_director"}
or{"train": ["path/to/train_file1", "path/to/train_file2"]}
. In both cases (subdirectory paths or file paths), the paths are relative to the url. Ifsplit_paths
is not provided, the dataset will be loaded from the root directory and all direct subfolders will be considered as splits.file_name_blacklist
(list
, optional): a list of file names (without extension) that should be ignored, e.g.["A28"]
. This is useful if the dataset contains files that are not valid brat files.
Important: Using the data_dir
parameter of the load_dataset()
method overrides the url
parameter of the BratConfig
.
We provide an example of SciArg dataset below:
from datasets import load_dataset
kwargs = {
"description" :
"""This dataset is an extension of the Dr. Inventor corpus (Fisas et al., 2015, 2016) with an annotation layer containing
fine-grained argumentative components and relations. It is the first argument-annotated corpus of scientific
publications (in English), which allows for joint analyses of argumentation and other rhetorical dimensions of
scientific writing.""",
"citation" :
"""@inproceedings{lauscher2018b,
title = {An argument-annotated corpus of scientific publications},
booktitle = {Proceedings of the 5th Workshop on Mining Argumentation},
publisher = {Association for Computational Linguistics},
author = {Lauscher, Anne and Glava\v{s}, Goran and Ponzetto, Simone Paolo},
address = {Brussels, Belgium},
year = {2018},
pages = {40–46}
}""",
"homepage": "https://github.com/anlausch/ArguminSci",
"url": "http://data.dws.informatik.uni-mannheim.de/sci-arg/compiled_corpus.zip",
"split_paths": {
"train": "compiled_corpus",
},
"file_name_blacklist": ['A28'],
}
dataset = load_dataset('dfki-nlp/brat', **kwargs)
Additional Information
Licensing Information
[Needs More Information]
Citation Information
@inproceedings{stenetorp-etal-2012-brat,
title = "brat: a Web-based Tool for {NLP}-Assisted Text Annotation",
author = "Stenetorp, Pontus and
Pyysalo, Sampo and
Topi{\'c}, Goran and
Ohta, Tomoko and
Ananiadou, Sophia and
Tsujii, Jun{'}ichi",
booktitle = "Proceedings of the Demonstrations at the 13th Conference of the {E}uropean Chapter of the Association for Computational Linguistics",
month = apr,
year = "2012",
address = "Avignon, France",
publisher = "Association for Computational Linguistics",
url = "https://aclanthology.org/E12-2021",
pages = "102--107",
}
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