[Documentation] [TitleIndex] [WordIndex

  Show EOL distros: 

Package Summary

UWSim is an UnderWater SIMulator for marine robotics research and development. UWSim visualizes an underwater virtual scenario that can be configured using standard modeling software. Controllable underwater vehicles, surface vessels and robotic manipulators, as well as simulated sensors, can be added to the scene and accessed externally through ROS interfaces. This allows to easily integrate the visualization tool with existing control architectures.

Package Summary

UWSim is an UnderWater SIMulator for marine robotics research and development. UWSim visualizes an underwater virtual scenario that can be configured using standard modeling software. Controllable underwater vehicles, surface vessels and robotic manipulators, as well as simulated sensors, can be added to the scene and accessed externally through ROS interfaces. This allows to easily integrate the visualization tool with existing control architectures.

Package Summary

UWSim is an UnderWater SIMulator for marine robotics research and development. UWSim visualizes an underwater virtual scenario that can be configured using standard modeling software. Controllable underwater vehicles, surface vessels and robotic manipulators, as well as simulated sensors, can be added to the scene and accessed externally through ROS interfaces. This allows to easily integrate the visualization tool with existing control architectures.

  • Maintainer status: maintained
  • Maintainer: Mario Prats <marioprats AT gmail DOT com>, Javier Perez <perezsolerj AT gmail DOT com>
  • Author: Mario Prats <marioprats AT gmail DOT com>, Javier Perez <perezsolerj AT gmail DOT com>
  • License: GPL
  • External website: http://www.irs.uji.es/uwsim/

Package Summary

UWSim is an UnderWater SIMulator for marine robotics research and development. UWSim visualizes an underwater virtual scenario that can be configured using standard modeling software. Controllable underwater vehicles, surface vessels and robotic manipulators, as well as simulated sensors, can be added to the scene and accessed externally through ROS interfaces. This allows to easily integrate the visualization tool with existing control architectures.

  • Maintainer status: maintained
  • Maintainer: Mario Prats <marioprats AT gmail DOT com>, Javier Perez <perezsolerj AT gmail DOT com>
  • Author: Mario Prats <marioprats AT gmail DOT com>, Javier Perez <perezsolerj AT gmail DOT com>
  • License: GPL
  • External website: http://www.irs.uji.es/uwsim/

Package Summary

UWSim is an UnderWater SIMulator for marine robotics research and development. UWSim visualizes an underwater virtual scenario that can be configured using standard modeling software. Controllable underwater vehicles, surface vessels and robotic manipulators, as well as simulated sensors, can be added to the scene and accessed externally through ROS interfaces. This allows to easily integrate the visualization tool with existing control architectures.

  • Maintainer status: maintained
  • Maintainer: Mario Prats <marioprats AT gmail DOT com>, Javier Perez <perezsolerj AT gmail DOT com>
  • Author: Mario Prats <marioprats AT gmail DOT com>, Javier Perez <perezsolerj AT gmail DOT com>
  • License: GPL
  • External website: http://www.irs.uji.es/uwsim/

Package Summary

UWSim is an UnderWater SIMulator for marine robotics research and development. UWSim visualizes an underwater virtual scenario that can be configured using standard modeling software. Controllable underwater vehicles, surface vessels and robotic manipulators, as well as simulated sensors, can be added to the scene and accessed externally through ROS interfaces. This allows to easily integrate the visualization tool with existing control architectures.

  • Maintainer status: developed
  • Maintainer: Mario Prats <marioprats AT gmail DOT com>, Javier Perez <perezsolerj AT gmail DOT com>, Diego Centelles <centelld AT uji DOT es>
  • Author: Mario Prats <marioprats AT gmail DOT com>, Javier Perez <perezsolerj AT gmail DOT com>
  • License: GPL
  • External website: http://www.irs.uji.es/uwsim/

Shipwreck scenario UWSim v1.1

Requirements

The simulator has been tested in Ubuntu Linux from 9.10 to 12.04. However, it should work on other linux-based distributions. MacOS and Windows have not been tested for now, but it should be possible to run UWSim also on these systems, since all the libraries used are also available for them.

You will need a decent PC, with a good graphics card. It should work well on recent NVidia and ATI cards with good driver support in GNU/Linux. Have a look to the http://code.google.com/p/osgocean/wiki/HardwareSupport list of cards that are known to be working]. If you see strange visualization effects, or it just crashes before beginning, it probably means your card does not meet the requirements (if this is the case, try with the <tt>--disableShaders</tt> option). As an example, it runs fluently on a MacBook Pro 2.26 Ghz Intel Core 2 Duo, 4 GB DDR3 with an NVIDIA GeForce 9400M, running Ubuntu 11.04.

Finally, you will also need ROS. It has been tested on ROS cturtle, diamondback, electric, fuerte and groovy. For ROS installation instructions, refer to the following link:

http://wiki.ros.org/ROS/Installation

Package-based installation

There are deb packages pre-compiled for Ubuntu and ROS Groovy / Hydro. Assuming you have the ROS repositories already added to your sources.list, the following command will install UWSim and all its dependencies:

apt-get install ros-groovy-uwsim

Running

First be sure that a roscore is already running. If not, start it:

roscore

After that, the following command should start UWSim:

rosrun uwsim uwsim

The first time you run UWSim, it will ask for downloading a data package that will be installed under ~/.uwsim. After that, a window should appear showing a default scenario and robot. Inside the simulator, you can freely move the camera with the mouse. With the simulator running, you can check the list of ROS topics involved:

rostopic list

and subscribe/publish to them with rostopic and rospub, or with your custom ros control nodes. The are some example ROS interface nodes in the <tt>interface_examples</tt> folder. For example, the following command should update the vehicle position in the default scenario (2 meters along positive X axis):

rosrun uwsim setVehiclePosition /dataNavigator 2 0 0 0 0 0

Source-based installation previous to ROS Groovy

This section explain how to build UWSim from sources in ROS distributions previous to Groovy.

Download sources

Download the underwater_simulation stack to a folder in your ROS_PACKAGE_PATH:

git clone https://github.com/uji-ros-pkg/underwater_simulation.git

Configure & build

First install the UWSim dependencies with the following command:

rosdep install UWSim

This will ask for your password in order to install all the necessary packages with apt-get. After this, you can build the simulator:

rosmake UWSim

This will first download and compile osgOcean. After that the UWSim package will be built.

Source-based installation in Groovy and later distributions

This section explain how to build UWSim from sources in ROS Groovy. For hydro or later distributions, just replace 'groovy' by 'hydro' or the corresponding distro name.

Download sources

Create a catkin workspace and place a .rosinstall file inside it with the following contents:

- other: {local-name: /opt/ros/groovy/share/ros}
- other: {local-name: /opt/ros/groovy/share}
- other: {local-name: /opt/ros/groovy/stacks}
- setup-file: {local-name: /opt/ros/groovy/setup.sh}
- git: {local-name: src/uwsim_osgocean, 
        uri: 'https://github.com/uji-ros-pkg/uwsim_osgocean.git', 
        version: groovy-devel}
- git: {local-name: src/uwsim_osgworks, 
        uri: 'https://github.com/uji-ros-pkg/uwsim_osgworks.git', 
        version: groovy-devel}
- git: {local-name: src/uwsim_bullet, 
        uri: 'https://github.com/uji-ros-pkg/uwsim_bullet.git', 
        version: groovy-devel}
- git: {local-name: src/uwsim_osgbullet, 
        uri: 'https://github.com/uji-ros-pkg/uwsim_osgbullet.git', 
        version: groovy-devel}
- git: {local-name: src/underwater_simulation, 
        uri: 'https://github.com/uji-ros-pkg/underwater_simulation.git', 
        version: groovy-devel}

Then download the sources with:

rosws update

Configure & build

Install the dependencies and build the sources with cakin:

 rosdep install --from-paths src --ignore-src --rosdistro groovy -y
 catkin_make_isolated --install


2024-10-05 16:57