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IR2 Multi-Robot RL Exploration

[IROS 2024] Public code and model for IR2: Implicit Rendezvous for Robotic Exploration Teams under Sparse Intermittent Connectivity.

We present IR2, a deep reinforcement learning approach to information sharing for multi-robot exporation under communication constraints. Leveraging attention-based neural networks and hierarchical graph formulation, robots can effectively balance the longer-term trade-offs between disconnecting for solo exploration and reconnecting for information sharing in large-scale, complex environments.

GIF Demo

This demonstration showcases 4 robots exploring in an unknown Complex map under line-of-sight signal strength communication constraints. The top gif illustrates the global map and robot positions assuming no communication constraints. Conversely, the bottom 4 gifs illustrates the individual robots' map and position beliefs subjected to communication constraints.

If this GIF is taking too long to load, you may view the demonstration here.

Instructions

Dependencies

This repository was tested using the following dependencies. Newer version of these packages may work as well.

  • python == 3.8
  • pytorch == 1.10.0
  • ray == 1.10.0
  • scikit-image == 0.19.3
  • scikit-learn == 1.2.1
  • scipy == 1.10.0
  • matplotlib == 3.6.3
  • tensorboard == 2.8.0

Training

  1. Set training parameters in parameters.py.
  2. Run python driver.py.

Evaluation

  1. Set inference parameters in test_parameters.py.
  2. Run test_driver.py.

Code Structure

  • parameter.py Training parameters.
  • driver.py Driver of training program, maintain & update the global network.
  • runner.py Wrapper of the local network.
  • multi_robot_worker.py Interact with environment and collect episode experience.
  • model.py Define attention-based network.
  • env.py Autonomous exploration environment.
  • graph_generator.py Generate and update the collision-free graph.
  • graph.py Graph definition and utilities.
  • node.py Initialize and update nodes in the coliision-free graph.
  • sensor.py Simulate the sensor model of Lidar.
  • robot.py Acts as a replay buffer.
  • ss_realistic_model.py Realistic signal strength communication model.
  • /model Trained model.
  • /DungeonMaps Maps of training environments.

References

If you intend to use our work in your research, please cite the following publication:

@INPROCEEDINGS{derek2024IR2,
  author={Derek, MS Tan and Ma, Yixiao and Liang, Jingsong and Cao, Yuhong and Sartoretti, Guillaume},
  booktitle={2024 IEEE International Conference on Intelligent Robots and Systems (IROS)}, 
  title={IR2: Implicit Rendezvous for Robotic Exploration Teams under Sparse Intermittent Connectivity}, 
  year={2024},
  volume={},
  number={},
  pages={},
  doi={}}

Authors

Derek Ming Siang Tan
Yixiao Ma
Jingsong Liang
Yi Cheng Chng
Yuhong Cao
Guillaume Sartoretti