Here are the ROS simulation packages for Unitree robots, You can load robots and joint controllers in Gazebo, so you can perform low-level control (control the torque, position and angular velocity) of the robot joints. Please be aware that the Gazebo simulation cannot do high-level control, namely walking. Aside from these simulation functions, you can also control your real robots in ROS with the unitree_ros_to_real packages. For real robots, you can do high-level and low-level control using our ROS packages.
Robot description: go1_description, a1_description, aliengo_description, laikago_description, z1_description
Robot and joints controller: unitree_controller, z1_controller
Simulation related: unitree_gazebo, unitree_legged_control
- ROS Melodic or ROS Kinetic (has not been tested)
- Gazebo8
- unitree_legged_msgs:
unitree_legged_msgsis a package under unitree_ros_to_real.
For ROS Melodic:
sudo apt-get install ros-melodic-controller-interface ros-melodic-gazebo-ros-control ros-melodic-joint-state-controller ros-melodic-effort-controllers ros-melodic-joint-trajectory-controller
For ROS Kinetic:
sudo apt-get install ros-kinetic-controller-manager ros-kinetic-ros-control ros-kinetic-ros-controllers ros-kinetic-joint-state-controller ros-kinetic-effort-controllers ros-kinetic-velocity-controllers ros-kinetic-position-controllers ros-kinetic-robot-controllers ros-kinetic-robot-state-publisher ros-kinetic-gazebo8-ros ros-kinetic-gazebo8-ros-control ros-kinetic-gazebo8-ros-pkgs ros-kinetic-gazebo8-ros-dev
And open the file unitree_gazebo/worlds/stairs.world. At the end of the file:
<include>
<uri>model:///home/unitree/catkin_ws/src/unitree_ros/unitree_gazebo/worlds/building_editor_models/stairs</uri>
</include>
Please change the path of building_editor_models/stairs to the real path on your PC.
Then you can use catkin_make to build:
cd ~/catkin_ws
catkin_make
If you face a dependency problem, you can just run catkin_make again.
It contains the joints controllers for Gazebo simulation, which allows users to control joints with position, velocity and torque. Refer to "unitree_ros/unitree_controller/src/servo.cpp" for joint control examples in different modes.
Namely the description of Go1, A1, Aliengo and Laikago. Each package includes mesh, urdf and xacro files of robot. Take Laikago for example, you can check the model in Rviz by:
roslaunch laikago_description laikago_rviz.launch
You can launch the Gazebo simulation with the following command:
roslaunch unitree_gazebo normal.launch rname:=a1 wname:=stairs
Where the rname means robot name, which can be laikago, aliengo, a1 or go1. The wname means world name, which can be earth, space or stairs. And the default value of rname is laikago, while the default value of wname is earth. In Gazebo, the robot should be lying on the ground with joints not activated.
After launching the gazebo simulation, you can start to control the robot:
rosrun unitree_controller unitree_servo
And you can add external disturbances, like a push or a kick:
rosrun unitree_controller unitree_external_force
Here we demonstrated how to control the position and pose of robot without a controller, which should be useful in SLAM or visual development.
Then run the position and pose publisher in another terminal:
rosrun unitree_controller unitree_move_kinetic
The robot will turn around the origin, which is the movement under the world coordinate frame. And inside of the source file move_publisher.cpp, we also provide the method to move using the robot coordinate frame. You can change the value of def_frame to coord::ROBOT and run the catkin_make again, then the unitree_move_publisher will move robot under its own coordinate frame.
You can launch the z1 Gazebo simulation with the following command:
roslaunch unitree_gazebo z1.launch
After launching the gazebo simulation, you can start to control the z1 robot by z1_sdk.
see z1_documentation
