THIS REPOSITORY IS DEPRECATED, REFER TO https://github.com/AcutronicRobotics/gym-gazebo2 FOR THE NEW VERSION.
This work presents an extension of the initial OpenAI gym for robotics using ROS and Gazebo. A whitepaper about this work is available at https://arxiv.org/abs/1608.05742. Please use the following BibTex entry to cite our work:
@article{zamora2016extending,
title={Extending the OpenAI Gym for robotics: a toolkit for reinforcement learning using ROS and Gazebo},
author={Zamora, Iker and Lopez, Nestor Gonzalez and Vilches, Victor Mayoral and Cordero, Alejandro Hernandez},
journal={arXiv preprint arXiv:1608.05742},
year={2016}
}
gym-gazebo
is a complex piece of software for roboticists that puts together simulation tools, robot middlewares (ROS, ROS 2), machine learning and reinforcement learning techniques. All together to create an environment whereto benchmark and develop behaviors with robots. Setting up gym-gazebo
appropriately requires relevant familiarity with these tools.
Code is available "as it is" and currently it's not supported by any specific organization. Community support is available here. Pull requests and contributions are welcomed.
The following are some of the gazebo environments maintained by the community using gym-gazebo
. If you'd like to contribute and maintain an additional environment, submit a Pull Request with the corresponding addition.
Name | Middleware | Description | Observation Space | Action Space | Reward range |
---|---|---|---|---|---|
GazeboCircuit2TurtlebotLidar-v0 |
ROS | A simple circuit with straight tracks and 90 degree turns. Highly discretized LIDAR readings are used to train the Turtlebot. Scripts implementing Q-learning and Sarsa can be found in the examples folder. | |||
GazeboCircuitTurtlebotLidar-v0.png |
ROS | A more complex maze with high contrast colors between the floor and the walls. Lidar is used as an input to train the robot for its navigation in the environment. | TBD | ||
GazeboMazeErleRoverLidar-v0 |
ROS, APM | Deprecated | |||
GazeboErleCopterHover-v0 |
ROS, APM | Deprecated |
The following table compiles a number of other environments that do not have community support.
Refer to INSTALL.md
In the root directory of the repository:
sudo pip install -e .
- Load the environment variables corresponding to the robot you want to launch. E.g. to load the Turtlebot:
cd gym_gazebo/envs/installation
bash turtlebot_setup.bash
Note: all the setup scripts are available in gym_gazebo/envs/installation
- Run any of the examples available in
examples/
. E.g.:
cd examples/turtlebot
python circuit2_turtlebot_lidar_qlearn.py
To see what's going on in Gazebo during a simulation, run gazebo client. In order to launch the gzclient
and be able to connect it to the running gzserver
:
- Open a new terminal.
- Source the corresponding setup script, which will update the GAZEBO_MODEL_PATH variable: e.g.
source setup_turtlebot.bash
- Export the GAZEBO_MASTER_URI, provided by the gazebo_env. You will see that variable printed at the beginning of every script execution. e.g.
export GAZEBO_MASTER_URI=http://localhost:13853
Note: This instructions are needed now since gazebo_env
creates a random port for the GAZEBO_MASTER_URI, which allows to run multiple instances of the simulation at the same time. You can remove the following two lines from the environment if you are not planning to launch multiple instances:
os.environ["ROS_MASTER_URI"] = "http://localhost:"+self.port
os.environ["GAZEBO_MASTER_URI"] = "http://localhost:"+self.port_gazebo
Finally, launch gzclient.
gzclient
Display a graph showing the current reward history by running the following script:
cd examples/utilities
python display_plot.py
HINT: use --help
flag for more options.
Sometimes, after ending or killing the simulation gzserver
and rosmaster
stay on the background, make sure you end them before starting new tests.
We recommend creating an alias to kill those processes.
echo "alias killgazebogym='killall -9 rosout roslaunch rosmaster gzserver nodelet robot_state_publisher gzclient'" >> ~/.bashrc