The code for the paper "High-Speed Motion Planning for Aerial Swarms in Unknown and Cluttered Environments", by Charbel Toumieh and Dario Floreano: (pdf, video).

The packages have been tested on Ubuntu 22.04, ROS2 Humble. The simulations have been run on Intel i9-13900K CPU and NVidia RTX 4090 GPU.

This project is continuously under development.

10 agents circular exchange (forest)	10 agents traversing forest / wall / forest

10 agents traversing loops	Hardware experiments on nano-drones (Crazyflie)

To get started you can skip to Getting Started. This repo contains the following packages:

• convex_decomp_util: package for Safe Corridor generation based on [1] and [2].
• decomp_ros: package for Safe Corridor generation and visualization based on [3].
• env_builder: ROS2 package that allows to build an evironment in the form of voxel grid and publishes it in the form of a pointcloud for visualization in rviz2.
• jps3d: a modified version of jps3d that checks for traversibilty when generating a path to make sure we can generate a Safe Corridor around it.
• mapping_util: ROS2 package for voxel grid generation (clearing out voxels that are in the field of view of the drone).
• path_finding_util: package for path finding and path tools such as path shortening.
• voxel_grid_util: package for voxel grid class and raycasting function.
• multi_agent_planner: ROS2 package for multi-agent planning (uses all the other packages).

At the end of this documentation you can find:

• Improvements: improvements to the packages that are yet to be implemented.
• References: references used throughout this text.
• Citation: bibtex citation for latex.

Download gurobi 10.0.* from this link. Follow the installation instructions in this link. Finally, install the license by going to this link, creating a license and installing it (instructions on how to install it are shown when you create it).

Then, build gurobi and copy the library:

cd /opt/gurobi1002/linux64/src/build  #Note that the name of the folder gurobi1002 changes according to the Gurobi version
sudo make
sudo cp libgurobi_c++.a ../../lib/

Create a ROS2 workspace and clone the repo inside the src folder of the workspace (or simply clone it inside an existing workspace), then build it:

mkdir -p ~/ros2_ws/src
cd ~/ros2_ws/src
git clone https://github.com/lis-epfl/multi_agent_pkgs
cd ..
colcon build --symlink-install --packages-select jps3d decomp_util convex_decomp_util path_finding_util voxel_grid_util decomp_ros_msgs decomp_ros_utils 
source install/setup.bash
colcon build --symlink-install --packages-select env_builder_msgs env_builder mapping_util multi_agent_planner_msgs multi_agent_planner

To switch between a known and unknown envrionment, you can set the variable free_grid in the launch file to true and false respectively.

Launch rviz2 in a terminal (if you didn't build decomp_ros_util due to OGRE conflicts, the polyhedra will not appear).

cd ~/ros2_ws
. install/setup.bash
rviz2 -d ~/ros2_ws/src/multi_agent_pkgs/multi_agent_planner/rviz/rviz_config_multi.rviz

Launch the environment in another window (if you want an empty environement replace env_builder.launch.py with env_builder_empty.launch.py):

cd ~/ros2_ws
. install/setup.bash
ros2 launch env_builder env_builder.launch.py

Launch the agents in another window. If you want each agent to run in a different terminal, uncomment the prefix=['xterm -fa default -fs 10 -hold -e'] line in the launch file:

cd ~/ros2_ws
. install/setup.bash
ros2 launch multi_agent_planner multi_agent_planner_circle.launch.py

Launch rviz2 in a terminal (if you didn't build decomp_ros_util due to OGRE conflicts, the polyhedra will not appear).

cd ~/ros2_ws
. install/setup.bash
rviz2 -d ~/ros2_ws/src/multi_agent_pkgs/multi_agent_planner/rviz/rviz_config_multi.rviz

Launch the environment in another window:

cd ~/ros2_ws
. install/setup.bash
ros2 launch env_builder env_builder.launch.py

Launch the agents in another window. If you want each agent to run in a different terminal, uncomment the prefix=['xterm -fa default -fs 10 -hold -e'] line in the launch file:

cd ~/ros2_ws
. install/setup.bash
ros2 launch multi_agent_planner multi_agent_planner_long.launch.py

These are the potential structural improvements:

• The jps3d package should be integrated in the path_finding_util package.

These are the potential parametric improvements:

• Tuning the parameters for speed modulation to go faster in free environments.

These are the potential future features under development:

• Dealing with dynamic obstacles.
• Dealing with deadlocks when passing through narrow gaps from opposite directions.

[1] Toumieh, C. and Lambert, A., 2022. Voxel-grid based convex decomposition of 3d space for safe corridor generation. Journal of Intelligent & Robotic Systems, 105(4), p.87.

[2] Toumieh, C. and Lambert, A., 2022. Shape-aware Safe Corridors Generation using Voxel Grids. arXiv preprint arXiv:2208.06111

[3] Liu, S., Watterson, M., Mohta, K., Sun, K., Bhattacharya, S., Taylor, C.J. and Kumar, V., 2017. Planning dynamically feasible trajectories for quadrotors using safe flight corridors in 3-d complex environments. IEEE Robotics and Automation Letters, 2(3), pp.1688-1695.

@misc{toumieh2024highspeed,
      title={High-Speed Motion Planning for Aerial Swarms in Unknown and Cluttered Environments},
      author={Charbel Toumieh and Dario Floreano},
      year={2024},
      eprint={2402.19033},
      archivePrefix={arXiv},
      primaryClass={cs.RO}
}