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  • License
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  • Created over 5 years ago
  • Updated almost 2 years ago

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Repository Details

What is this repository for?

Installation (Else: Docker below)

  1. Standart ROS setup (Code has been tested with ROS-kinetic on Ubuntu 16.04)

  2. Install additional packages

    apt-get update && apt-get install -y \
    libqt4-dev \
    libopencv-dev \
    liblua5.2-dev \
    virtualenv \
    screen \
    python3-dev \
    ros-kinetic-tf2-geometry-msgs \
    ros-kinetic-navigation \
    ros-kinetic-rviz 
    
  3. Setup repository:

    • Clone this repository in your src-folder of your catkin workspace
    cd <path_to_catkin_ws>/src/drl_local_planner_ros_stable_baselines
    cp .rosinstall ../
    cd ..
    rosws update
    cd <path_to_catkin_ws>
    catkin_make -DCMAKE_BUILD_TYPE=Release
    

    (please install missing packages)

  4. Setup virtual environment to be able to use python3 with ros (consider also requirements.txt)

     virtualenv <path_to_venv>/venv_p3 --python=python3
     source <path_to_venv>/venv_p3/bin/activate
     <path_to_venv>/venv_p3/bin/pip install \
         pyyaml \
         rospkg \
         catkin_pkg \
         exception \
         numpy \
         tensorflow=="1.13.1" \
         gym \
         pyquaternion \ 
         mpi4py \
         matplotlib
     cd <path_to_catkin_ws>/src/drl_local_planner_forks/stable_baselines/
     <path_to_venv>/venv_p3/bin/pip install -e path_to_catkin_ws>/src/drl_local_planner_forks/stable-baselines/
    
  5. Set system-relevant variables

    • Modify all relevant pathes rl_bringup/config/path_config.ini

Example usage

  1. Train agent

    • Open first terminal (roscore):
    roscore
    
    • Open second terminal (simulationI:
    roslaunch rl_bringup setup.launch ns:="sim1" rl_params:="rl_params_scan"
    
    • Open third terminal (DRL-agent):
    source <path_to_venv>/bin/activate 
    python rl_agent/scripts/train_scripts/train_ppo.py
    
    • Open fourth terminal (Visualization):
    roslaunch rl_bringup rviz.launch ns:="sim1"
    
  2. Execute self-trained ppo-agent

    • Copy your trained agent in your "path_to_models"
    • Open first terminal:
    roscore
    
    • Open second terminal:
    roslaunch rl_bringup setup.launch ns:="sim1" rl_params:="rl_params_scan"
    
    • Open third terminal:
    source <path_to_venv>/venv_p3/bin/activate 
    roslaunch rl_agent run_ppo_agent.launch mode:="train"
    
    • Open fourth terminal:
    roslaunch rl_bringup rviz.launch ns:="sim1"
    
    • Set 2D Navigation Goal in rviz

Run pretrained Agents

Note: To be able to load the pretrained agents, you need to install numpy version 1.17.0.

<path_to_venv>/venv_p3/bin/pip install numpy==1.17

Run agent trained on raw data, discrete action space, stack size 1

  1. Copy the example_agents in your "path_to_models"
  2. Open first terminal:
    roscore
    
  3. Open second terminal for visualization:
    roslaunch rl_bringup rviz.launch ns:="sim1"
    
  4. Open third terminal:
    roslaunch rl_bringup setup.launch ns:="sim1" rl_params:="rl_params_scan"
    
  5. Open fourth terminal:
    source <path_to_venv>/venv_p3/bin/activate 
    roslaunch rl_agent run_1_raw_disc.launch mode:="train"
    

Run agent trained on raw data, discrete action space, stack size 3

  1. Step 1 - 4 are the same like in the first example
  2. Open fourth terminal:
    source <path_to_venv>/venv_p3/bin/activate 
    roslaunch rl_agent run_3_raw_disc.launch mode:="train"
    

Run agent trained on raw data, continuous action space, stack size 1

  1. Step 1 - 4 are the same like in the first example
  2. Open fourth terminal:
    source <path_to_venv>/venv_p3/bin/activate 
    roslaunch rl_agent run_1_raw_cont.launch mode:="train"
    

Run agent trained on image data, discrete action space, stack size 1

  1. Step 1 - 3 are the same like in the first example
  2. Open third terminal:
    roslaunch rl_bringup setup.launch ns:="sim1" rl_params:="rl_params_img"
    
  3. Open fourth terminal:
    source <path_to_venv>/venv_p3/bin/activate 
    roslaunch rl_agent run_1_img_disc.launch mode:="train"
    

Training in Docker

I set up a docker image, that allows you to train a DRL-agent in parallel simulation environments. Furthermore, it simplifies the deployment on a server. Using docker you don't need to follow the steps in the Installation section.

  1. Build the Docker image (This will unfortunately take about 15 minutes):
cd drl_local_planner_ros_stable_baselines/docker
docker build -t ros-drl_local_planner .

Training from scratch

  1. In start_scripts/training_params/ppo2_params, define the agents training parameters.

    Parameter Desctiption
    agent_name Number of timestamps the agent will be trained.
    total_timesteps Number of timestamps the agent will be trained.
    policy see PPO2 Doc
    gamma see PPO2 Doc
    n_steps see PPO2 Doc
    ent_coef see PPO2 Doc
    learning_rate see PPO2 Doc
    vf_coef see PPO2 Doc
    max_grad_norm see PPO2 Doc
    lam see PPO2 Doc
    nminibatches see PPO2 Doc
    noptepochs see PPO2 Doc
    cliprange see PPO2 Doc
    robot_radius The radius if the robot footprint
    rew_func The reward functions that should be used. They can be found and defined in rl_agent/src/rl_agent/env_utils/reward_container.py.
    num_stacks State representation includes the current observation and (num_stacks - 1) previous observation.
    stack_offset The number of timestamps between each stacked observation.
    disc_action_space 0, if continuous action space. 1, if discrete action space.
    normalize 0, if input should not be normalized. 1, if input should be normalized.
    stage stage number of your training. It is supposed to be 0, if you train for the first time. If it is > 0, it loads the agent of the "pretrained_model_path" and continues training.
    pretrained_model_name If stage > 0 this agent will be loaded and training can be continued.
    task_mode - "ped" for training on pedestrians only; "static" for training on static objects only; "ped_static" for training on both, static
  2. There are some predefined agents. As example I will use the ppo2_1_raw_data_disc_0 in the training session.

    docker run --rm -d \
        -v <folder_to_save_data>:/data \
        -v drl_local_planner_ros_stable_baselines/start_scripts/training_params:/usr/catkin_ws/src/drl_local_planner_ros_stable_baselines/start_scripts/training_params \
        -e AGENT_NAME=ppo2_1_raw_data_disc_0 \
        -e NUM_SIM_ENVS=4 \
        ros-drl_local_planner
    
  3. If you want to display the training in Rviz, run the docker container in the hosts network. In order to use rviz, the relevant packages need to be compiled on your machine.

    docker run --rm -d \
        -v <folder_to_save_data>:/data \
        -v drl_local_planner_ros_stable_baselines/start_scripts/training_params:/usr/catkin_ws/src/drl_local_planner_ros_stable_baselines/start_scripts/training_params \
        -e AGENT_NAME=ppo2_1_raw_data_disc_0 \
        -e NUM_SIM_ENVS=4 \
        --net=host \
        ros-drl_local_planner
    

    Now you can display the different simulation environments:

    • Simulation 1:
      roslaunch rl_bringup rviz.launch ns:="sim1"
      
    • Simulation 2:
      roslaunch rl_bringup rviz.launch ns:="sim2"
      
    • etc. ...

Train with pre-trained agents

Run agent trained on raw data, discrete action space, stack size 1

```
docker run --rm -d \
    -v drl_local_planner_ros_stable_baselines/example_agents:/data/agents \
    -v drl_local_planner_ros_stable_baselines/start_scripts/training_params:/usr/catkin_ws/src/drl_local_planner_ros_stable_baselines/start_scripts/training_params \
    -e AGENT_NAME=ppo2_1_raw_data_disc_0_pretrained \
    -e NUM_SIM_ENVS=4 \
    --net=host \
    ros-drl_local_planner
```

Run agent trained on image data, discrete action space, stack size 1

```
docker run --rm -d \
    -v drl_local_planner_ros_stable_baselines/example_agents:/data/agents \
    -v drl_local_planner_ros_stable_baselines/start_scripts/training_params:/usr/catkin_ws/src/drl_local_planner_ros_stable_baselines/start_scripts/training_params \
    -e AGENT_NAME=ppo2_1_img_disc_1_pretrained \
    -e NUM_SIM_ENVS=4 \
    --net=host \
    ros-drl_local_planner
```