# rl_sar [中文文档](README_CN.md) Gazebo simulation verification and UnitreeA1 physical deployment for reinforcement learning. "sar" stands for "simulation and real". ## Preparation Clone the code (sync submodules) ```bash git clone --recursive https://github.com/fan-ziqi/rl_sar.git ``` If there are updates: ```bash git pull git submodule update --remote --recursive ``` Download and deploy `libtorch` at any location ```bash cd /path/to/your/torchlib wget https://download.pytorch.org/libtorch/cpu/libtorch-cxx11-abi-shared-with-deps-2.0.1%2Bcpu.zip unzip libtorch-cxx11-abi-shared-with-deps-2.0.1+cpu.zip -d ./ echo 'export Torch_DIR=/path/to/your/torchlib' >> ~/.bashrc ``` Install `teleop-twist-keyboard` ```bash sudo apt install ros-noetic-teleop-twist-keyboard ``` ## Compilation Customize the following two functions in your code to adapt to different models: ```cpp torch::Tensor forward() override; torch::Tensor compute_observation() override; ``` Then compile in the root directory ```bash cd .. catkin build ``` ## Running Before running, copy the trained pt model file to `rl_sar/src/rl_sar/models` ### Simulation Open a new terminal, launch the gazebo simulation environment ```bash source devel/setup.bash roslaunch rl_sar start_env.launch ``` Open a new terminal, run the control program ```bash source devel/setup.bash rosrun rl_sar rl_sim ``` Open a new terminal, run the keyboard control program ```bash rosrun teleop_twist_keyboard teleop_twist_keyboard.py ``` ### Physical Deployment The connection to the physical robot can be done in both wireless and wired forms. - Wireless: Connect to the WIFI starting with "Unitree" emitted by the robot **(Note: Wireless connection may experience packet loss, disconnection, or even loss of control, please pay attention to safety)** - Wired: Use an Ethernet cable to connect any port on the computer to the robot, configure the computer's IP as 192.168.123.162, and the gateway as 255.255.255.0. Create a new terminal and launch the control program. ```bash source devel/setup.bash rosrun rl_sar rl_real ``` Press the **R2** button on the remote control to switch the robot to the default standing posture, press **R1** to switch to RL control mode, and press **L2** in any state to switch back to the initial lying posture. The left joystick controls x-axis up and down, controls yaw left and right, and the right joystick controls y-axis left and right.