Skip to content
forked from osrf/vrx

Virtual RobotX (VRX) resources.

License

Notifications You must be signed in to change notification settings

InvictusUMVs/vrx

 
 

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

Virtual RobotX (VRX)

This repository is the home to the source code and software documentation for the VRX simulation environment, which supports simulation of unmanned surface vehicles in marine environments.

  • Designed in coordination with RobotX organizers, this project provides arenas and tasks similar to those featured in past and future RobotX competitions, as well as a description of the WAM-V platform.
  • For RobotX competitors this simulation environment is intended as a first step toward developing tools prototyping solutions in advance of physical on-water testing.
  • We also welcome users with simulation needs beyond RobotX. As we continue to improve the environment, we hope to offer support to a wide range of potential applications.

Now supporting Gazebo Sim and ROS 2 by default

We're happy to announce with release 2.0 VRX has transitioned from Gazebo Classic to the newer Gazebo simulator (formerly Ignition Gazebo).

  • Gazebo Garden and ROS 2 are now default prerequisites for VRX.
  • This is the recommended configuration for new users.
  • Users who wish to continue running Gazebo Classic and ROS 1 can still do so using the gazebo_classic branch of this repository.
    • Tutorials for VRX Classic will remain available on our Wiki.
    • VRX Classic will transition from an officially supported branch to a community supported branch by Spring 2023.

The VRX Competition

The VRX environment is also the "virtual venue" for the VRX Competition. Please see our Wiki for tutorials and links to registration and documentation relevant to the virtual competition.

VRX Ubuntu CI

Getting Started

  • Watch the Release 2.3 Highlight Video.
  • The VRX Wiki provides documentation and tutorials.
  • The instructions assume a basic familiarity with the ROS environment and Gazebo. If these tools are new to you, we recommend starting with the excellent ROS Tutorials
  • For technical problems, please use the project issue tracker to describe your problem or request support.

Reference

If you use the VRX simulation in your work, please cite our summary publication, Toward Maritime Robotic Simulation in Gazebo:

@InProceedings{bingham19toward,
  Title                    = {Toward Maritime Robotic Simulation in Gazebo},
  Author                   = {Brian Bingham and Carlos Aguero and Michael McCarrin and Joseph Klamo and Joshua Malia and Kevin Allen and Tyler Lum and Marshall Rawson and Rumman Waqar},
  Booktitle                = {Proceedings of MTS/IEEE OCEANS Conference},
  Year                     = {2019},
  Address                  = {Seattle, WA},
  Month                    = {October}
}

Contributing

This project is under active development to support the VRX and RobotX teams. We are adding and improving things all the time. Our primary focus is to provide the fundamental aspects of the robot and environment, but we rely on the community to develop additional functionality around their particular use cases.

If you have any questions about these topics, or would like to work on other aspects, please contribute. You can contact us directly (see below), submit an issue or, better yet, submit a pull request!

Contributors

We continue to receive important improvements from the community. We have done our best to document this on our Contributors Wiki.

Contacts

About

Virtual RobotX (VRX) resources.

Resources

License

Stars

Watchers

Forks

Packages

No packages published

Languages

  • C++ 80.0%
  • Python 16.7%
  • CMake 1.5%
  • GLSL 1.2%
  • Shell 0.6%