Open source deep learning framework that focuses on aerospace objects (rockets, planes, UAVs)
Project description
๐ TensorAeroSpace
Advanced Aerospace Control Systems & Reinforcement Learning Framework
A comprehensive Python library for aerospace simulation, control algorithms, and reinforcement learning implementations
๐ Documentation โข ๐ Quick Start โข ๐ก Examples โข ๐ค Contributing
๐ Overview
TensorAeroSpace is a cutting-edge Python framework that combines aerospace engineering with modern machine learning. It provides:
- ๐ฏ Control Systems: Advanced control algorithms including PID, MPC, and modern RL approaches
- โ๏ธ Aerospace Models: High-fidelity aircraft and spacecraft simulation models
- ๐ฎ OpenAI Gym Integration: Ready-to-use environments for reinforcement learning
- ๐ง RL Algorithms: State-of-the-art reinforcement learning implementations
- ๐ง Extensible Architecture: Easy to extend and customize for your specific needs
๐ Quick Start
๐ฆ Installation
Using Poetry (Recommended)
git clone https://github.com/tensoraerospace/tensoraerospace.git
cd tensoraerospace
poetry install
Using pip
pip install tensoraerospace
๐ณ Docker
docker build -t tensoraerospace . --platform=linux/amd64
docker run -v $(pwd)/example:/app/example -p 8888:8888 -it tensoraerospace
๐โโ๏ธ Quick Examples
๐ Pretrained SAC Agent (Boeing 747)
Run a pretrained Soft Actor-Critic agent on Boeing 747 pitch control:
Command line:
python example/reinforcement_learning/sac-b747-render.py \
--render \
--dt 0.1 \
--tn 200 \
--repo TensorAeroSpace/sac-b747
๐ See full tutorial: SAC B747 Documentation
๐๏ธ PID Controller (F-16)
import gymnasium as gym
import numpy as np
from tensoraerospace.agent.pid import PID
from tensoraerospace.utils import generate_time_period
from tensoraerospace.signals.standart import unit_step
# Simulation setup
dt = 0.01
tp = generate_time_period(tn=10, dt=dt) # 10 seconds
N = len(tp)
# Reference signal for alpha tracking (5 deg step in radians)
reference = unit_step(
degree=5, tp=tp, time_step=100, output_rad=True
).reshape(1, -1)
# Create F-16 longitudinal environment
env = gym.make(
'LinearLongitudinalF16-v0',
number_time_steps=N,
initial_state=[[0], [0]],
reference_signal=reference,
use_reward=False,
)
# PID controller with tuned coefficients
pid = PID(
env,
kp=-14.290139135229715,
ki=-8.240470780203491,
kd=-1.2991634935096958,
dt=dt
)
obs, info = env.reset()
for t in range(N - 1):
setpoint = reference[0, t]
alpha = float(obs[0])
u = pid.select_action(setpoint, alpha)
action = np.array([[float(u)]], dtype=np.float32)
obs, reward, terminated, truncated, info = env.step(action)
if terminated or truncated:
break
๐ค Supported Algorithms
| Algorithm | Type | HuggingFace Export | Status |
|---|---|---|---|
| IHDP | Incremental Heuristic Dynamic Programming | โ | โ |
| DQN | Deep Q-Learning | โ | โ |
| DDPG | Deep Deterministic Policy Gradient | โ | โ |
| SAC | Soft Actor-Critic | โ | โ |
| A3C | Asynchronous Advantage Actor-Critic | โ | โ |
| PPO | Proximal Policy Optimization | โ | โ |
| GAIL | Imitation Learning (Adversarial) | โ | โ |
| MPC | Model Predictive Control | โ | โ |
| A2C | Advantage Actor-Critic | โ | โ |
| A2C-NARX | A2C with NARX Critic | โ | โ |
| PID | Proportional-Integral-Derivative | โ | โ |
โ๏ธ Aircraft & Spacecraft Models
๐ฉ๏ธ Fixed-Wing Aircraft
- General Dynamics F-16 Fighting Falcon - High-fidelity fighter jet model
- Boeing 747 - Commercial airliner dynamics
- McDonnell Douglas F-4C Phantom II - Military aircraft model
- North American X-15 - Hypersonic research aircraft
๐ UAVs & Drones
- LAPAN Surveillance Aircraft (LSU)-05 - Indonesian surveillance UAV
- Ultrastick-25e - RC aircraft model
- Generic UAV State Space - Configurable UAV dynamics
๐ Rockets & Satellites
- ELV (Expendable Launch Vehicle) - Launch vehicle dynamics
- Generic Rocket Model - Customizable rocket simulation
- Geostationary Satellite - Orbital mechanics simulation
- Communication Satellite - ComSat dynamics and control
๐ฎ Simulation Environments
๐ฏ Unity ML-Agents Integration
TensorAeroSpace seamlessly integrates with Unity ML-Agents for immersive 3D simulations:
- ๐ฎ 3D Visualization: Real-time 3D aircraft simulation
- ๐ Real-time Training: Train agents in realistic environments
- ๐ Rich Sensors: Camera, LiDAR, and physics-based sensors
- ๐ Custom Environments: Build your own aerospace scenarios
๐ Example Environment: UnityAirplaneEnvironment
๐ง MATLAB Simulink Support
- ๐ Model Import: Convert Simulink models to Python
- โก High Performance: Compiled C++ integration
- ๐ Bidirectional: MATLAB โ Python workflow
- ๐ Validation: Cross-platform model validation
๐ State Space Matrices
Mathematical foundation for control system design:
- ๐งฎ Linear Models: State-space representation
- ๐๏ธ Control Design: Modern control theory implementation
- ๐ Analysis Tools: Stability, controllability, observability
- ๐ Linearization: Nonlinear model linearization
๐ Examples & Tutorials
Explore our comprehensive example collection in the ./example directory:
| Category | Description | Notebooks |
|---|---|---|
| ๐ Quick Start | Basic usage and concepts | quickstart.ipynb |
| ๐ค Reinforcement Learning | RL algorithm implementations | reinforcement_learning/ |
| ๐๏ธ Control Systems | PID, MPC controllers | pid_controllers/, mpc_controllers/ |
| โ๏ธ Aircraft Models | Environment examples | environments/ |
| ๐ง Optimization | Hyperparameter tuning | optimization/ |
๐ ๏ธ Development & Contributing
We welcome contributions! Please see our Contributing Guide for details.
๐๏ธ Development Setup
git clone https://github.com/tensoraerospace/tensoraerospace.git
cd tensoraerospace
poetry install --with dev
poetry run pytest # Run tests
๐งช Testing
# Run all tests
poetry run pytest
# Run specific test category
poetry run pytest tests/envs/
poetry run pytest tests/agents/
๐ Documentation
- ๐ Full Documentation: tensoraerospace.readthedocs.io
- ๐ API Reference: Detailed API documentation
- ๐ Tutorials: Step-by-step guides
- ๐ก Examples: Practical use cases
๐ค Community & Support
- ๐ฌ Discussions: GitHub Discussions
- ๐ Issues: Bug Reports
- ๐ง Contact: Email Support
๐ License
This project is licensed under the MIT License - see the LICENSE file for details.
๐ Acknowledgments
- OpenAI Gym team for the excellent RL framework
- Unity ML-Agents team for 3D simulation capabilities
- The aerospace engineering community for domain expertise
- All contributors who make this project possible
โญ Star us on GitHub if you find TensorAeroSpace useful! โญ
Made with โค๏ธ by the TensorAeroSpace team
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