Maintainer: michael AT openrobotics DOT org
Build | Status |
---|---|
Test coverage | |
Ubuntu Noble | |
Homebrew | |
Windows |
Gazebo Sim is an open source robotics simulator. Through Gazebo Sim, users have access to high fidelity physics, rendering, and sensor models. Additionally, users and developers have multiple points of entry to simulation including a graphical user interface, plugins, and asynchronous message passing and services.
Gazebo Sim is derived from Gazebo Classic and represents over 16 years of development and experience in robotics and simulation. This library is part of the Gazebo project.
-
Dynamics simulation: Access multiple high-performance physics engines through Gazebo Physics.
-
Advanced 3D graphics: Through Gazebo Rendering, it's possible to use rendering engines such as OGRE v2 for realistic rendering of environments with high-quality lighting, shadows, and textures.
-
Sensors and noise models: Generate sensor data, optionally with noise, from laser range finders, 2D/3D cameras, Kinect style sensors, contact sensors, force-torque, IMU, GPS, and more, all powered by Gazebo Sensors
-
Plugins: Develop custom plugins for robot, sensor, and environment control.
-
Graphical interface: Create, introspect and interact with your simulations through plugin-based graphical interfaces powered by Gazebo GUI.
-
Simulation models: Access numerous robots including PR2, Pioneer2 DX, iRobot Create, and TurtleBot, and construct environments using other physically accurate models available through Gazebo Fuel. You can also build a new model using SDF.
-
TCP/IP Transport: Run simulation on remote servers and interface to Gazebo Sim through socket-based message passing using Gazebo Transport.
-
Command line tools: Extensive command line tools for increased simulation introspection and control.
See the installation tutorial.
Gazebo Sim can be run from the command line, once installed, using:
gz sim
For help, and command line options use:
gz sim -h
In the event that the installation is a mix of Debian and from source, command
line tools from gz-tools
may not work correctly.
A workaround is to define the environment variable
GZ_CONFIG_PATH
to point to the different locations of the Gazebo libraries installations,
where the YAML files for the packages are found, such as
export GZ_CONFIG_PATH=/usr/local/share/gz:$HOME/ws/install/share/gz
where $HOME/ws
is an example colcon workspace used to build Gazebo
See the installation tutorial.
See the installation tutorial.
See the Writing Tests section of the contributor guide for help creating or modifying tests.
Refer to the following table for information about important directories and files in this repository.
gz-sim
├── examples Various examples that can be run against binary or source installs of gz-sim.
│ ├── plugin Example plugins.
│ ├── standalone Example standalone programs that use gz-sim as a library.
│ └── worlds Example SDF world files.
├── include/gz/sim Header files that downstream users are expected to use.
│ └── detail Header files that are not intended for downstream use, mainly template implementations.
├── python Python wrappers
├── src Source files and unit tests.
│ ├── gui Graphical interface source code.
│ └── systems System source code.
├── test
│ ├── integration Integration tests.
│ ├── performance Performance tests.
│ ├── plugins Plugins used in tests.
│ ├── regression Regression tests.
├── tutorials Tutorials, written in markdown.
├── Changelog.md Changelog.
├── CMakeLists.txt CMake build script.
├── Migration.md Migration guide.
└── README.md This readme.
Please see the contribution guide.
Please see CODE_OF_CONDUCT.md.
This library uses Semantic Versioning. Additionally, this library is part of the Gazebo project which periodically releases a versioned set of compatible and complimentary libraries. See the Gazebo website for version and release information.
This library is licensed under Apache 2.0. See also the LICENSE file.