/Hector_Simulation

Simulation Software for HECTOR Humanoid Robot (ROS/MATLAB)

Primary LanguageC++

Hector Open-source Simulation Software in ROS

HECTOR: Humanoid for Enhanced ConTrol and Open-source Research

This branch contains the ROS+Gazebo simulation for the Hector humanoid robot.

Introduction Video: https://youtu.be/NcW-NFwjMh0

Dependencies:

System Requirements:

If you want to simulate with Gazebo, we recommend x86 platform. ARM platform is not suggested for simulation. So, if you run this code on ARM platform, please remove Simulation related folder first.

The current system environment is:

  • Ubuntu 20.04 + ROS Noetic* (recommended, tested stable)

Configuration:

Use command to open .bashrc file:

  • gedit ~/.bashrc

Make sure the following exist in your ~/.bashrc file or export them in terminal. noetic, gazebo-11 and ~/catkin_ws should be replaced in your own case.

source /opt/ros/noetic/setup.bash
source /usr/share/gazebo-11/setup.sh
source ~/catkin_ws/devel/setup.bash
export ROS_PACKAGE_PATH=~/catkin_ws:${ROS_PACKAGE_PATH}
export GAZEBO_PLUGIN_PATH=~/catkin_ws/devel/lib:${GAZEBO_PLUGIN_PATH}
export LD_LIBRARY_PATH=~/catkin_ws/devel/lib:${LD_LIBRARY_PATH}

Build:

  • cd ~/catkin_ws
  • catkin_make

NOTE: If it is the first time to compile, Please compile the laikago_msgs first by following command:

complie the package

  • catkin_make -DCMAKE_BUILD_TYPE=Release

launch and run gazebo simulation:

  • roslaunch unitree_gazebo biped.launch The robot should be standing on the ground

  • In a new terminal: rosrun hector_control hector_ctrl

  • Click the start button at the bottom of the simulator, the robot should stand up/move away

  • In some occasions the controller does not kick in after starting, please terminate the controller with ctrl + \. Then go back to the simulator, pause, and reset (ctrl + R). Rerun controller.

Cite Us:

Thank you for choosing our software for your research and development, we highly appreciate your citing our work:

  1. Force-and-moment-based model predictive control for achieving highly dynamic locomotion on bipedal robots: https://arxiv.org/abs/2104.00065
  @inproceedings{li2021force,
  title={Force-and-moment-based model predictive control for achieving highly dynamic locomotion on bipedal robots},
  author={Li, Junheng and Nguyen, Quan},
  booktitle={2021 60th IEEE Conference on Decision and Control (CDC)},
  pages={1024--1030},
  year={2021},
  organization={IEEE}
}

Contact Information:

Yiyu Chen -- yiyuc@usc.edu Junheng Li -- junhengl@usc.edu

License

Please read the License.md for details.

Acknowledgement: