metadata
title: Titan-Hohmann-Transfer-Orbit
license: apache-2.0
datasets:
- name: Titan-Hohmann-Transfer-Orbit
tags:
- space
- synthetic
- mission-simulation
- foundation-model
- titan
size_categories: '700'
task_categories:
- other
Titan-Hohmann-Transfer-Orbit Dataset Card
Author: A Taylor
Contact: hf.co/taylor658
License: Apache License 2.0
Dataset Summary
The Titan-Hohmann-Transfer-Orbit dataset simulates an interplanetary mission to Titan using advanced propulsion systems and gravitational assist techniques. This synthetic dataset is designed to review:
- Trajectory optimization algorithms
- Electric propulsion system modeling
- Mission risk assessment
- Machine learning training for aerospace and trajectory decision-support systems.
Mission Profile
- Earth Departure: The spaceprobe begins its journey with a launch vehicle, departing Earth’s orbit and entering a heliocentric transfer trajectory.
- Gravity Assist Phase: The spaceprobe utilizes planetary flybys (e.g., Jupiter) to optimize its trajectory toward Saturn and Titan.
- Heliocentric Cruise: The spaceprobe completes extended low-thrust propulsion arcs using Hall Effect thrusters, further refining its trajectory.
- Titan Arrival: Final adjustments are made for spaceprobe orbital insertion to commence Part Two of the mission profile including EDL of floating probes to study Kraken Mare and EDL of a communication relay near Kraken Mare to enable efficient floating probe - earth data transmission.
Columns (Relevant for Foundation Model Training)
Initial_Total_Mass
- Total spaceprobe mass (kg) at the mission start, including fuel and payload.
Dry_Mass
- Spaceprobe mass without propellant (kg), useful for estimating burn times and fuel efficiency.
Thrust_Level
- Thrust output of the Hall Effect thrusters (mN).
Launch_Vehicle
- Categorical data specifying the type of launch vehicle used (e.g., “Falcon Heavy,” “SLS”).
Mission_Segment
- Categorical description of the mission phase (e.g., “Launch,” “Cruise,” “Gravity Assist,” “Titan Arrival”).
Time_of_Flight_days
- Elapsed time from mission start, measured in days.
Orbital_Radius_km
- Radial distance from the central celestial body (e.g., Earth, Sun, or Titan).
Semi_Major_Axis_km
- Semi-major axis of the spaceprobe’s elliptical trajectory (km).
Eccentricity
- Describes the shape of the orbit (0 = circle, <1 = ellipse).
Inclination_deg
- Orbital plane tilt relative to the ecliptic or other reference plane.
True_Anomaly_deg
- Position of the spaceprobe along its orbital path.
DeltaV_Used_km_s
- Total accumulated ∆v (km/s) expended since mission start.
Thrust_Events_Start_Time
- Timestamp indicating the start of a thrust event.
Thrust_Events_Stop_Time
- Timestamp indicating the end of a thrust event.
Closest_Approach_Distance_km
- Distance at closest approach during gravity-assist flybys.
Relative_Velocity_km_s
- Velocity of the spaceprobe relative to the flyby planet or Titan upon approach.
Final_Orbit_SMA_km
- Semi-major axis of the final orbit around Titan (km).
Final_Orbit_Inclination_deg
- Inclination of the spaceprobe’s orbit around Titan after insertion.
Intended Usage
- Foundation Model Training: Suitable for time-series and tabular data modeling in the context of interplanetary trajectories.
- Synthetic Orbital Analysis: For exploring gravity assists, electric propulsion, and mission design principles.
License & Citation
License: Apache 2.0
@dataset{titan_hohmann_transfer_orbit_2024,
title={{Titan-Hohmann-Transfer-Orbit Synthetic Dataset}},
author={A Taylor},
howpublished={\url{https://hf.co/taylor658}},
year={2024},
note={Synthetic dataset simulating an interplanetary mission to Titan.}
}