Football Table Simulation Visualization Tool: Difference between revisions

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This simulation communicates with Matlab Simulink using  Interprocess Communication (IPC) wrapper library for the POSIX libraries. This library uses mutexes and condition variables enabling a thread-safe, synchronized, causal communication between two processes e.g. Gazebo and Simulink. This allows us to use the Gazebo simulator as a plant in our simulink control loop. More on this library and how it is used, can be found [http://cstwiki.wtb.tue.nl/ here *EDIT*].
This simulation communicates with Matlab Simulink using  Interprocess Communication (IPC) wrapper library for the POSIX libraries. This library uses mutexes and condition variables enabling a thread-safe, synchronized, causal communication between two processes e.g. Gazebo and Simulink. This allows us to use the Gazebo simulator as a plant in our simulink control loop. More on this library and how it is used, can be found [http://cstwiki.wtb.tue.nl/ here *EDIT*].
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==== External Documentation ====
<ul>
  <li>[http://cstwiki.wtb.tue.nl/images/Report_Rein_Appeldoorn_Visualization_Simulation_Tool_Football_Table.pdf Report: Development of a Simulation and Visualization Tool for an Autonomous Football Table - Rein Appeldoorn]</li>
  <li>[http://cstwiki.wtb.tue.nl/images/MORSE_installation_guide.pdf MORSE Installation Guide with Yarp support - Ubuntu 10.04 LTS x86]</li>
</ul>

Revision as of 09:32, 10 September 2013

Author: Rein Appeldoorn

Information

Gazebo

A simulator is developed to easily test new algorithms without depending on the actual robot. In has been developed using gazebo (w/o the use of ROS), a so-called physics abstraction layer, which employs ODE combined with OGRE for rendering. The environment/robots are described in the SDF format, which in this case is combined with Collada (*.dae) renderings for more complex geometry. A previous attempt was created using MORSE, however this did not allow good tuning of the physics.

Inter-process Communication

This simulation communicates with Matlab Simulink using Interprocess Communication (IPC) wrapper library for the POSIX libraries. This library uses mutexes and condition variables enabling a thread-safe, synchronized, causal communication between two processes e.g. Gazebo and Simulink. This allows us to use the Gazebo simulator as a plant in our simulink control loop. More on this library and how it is used, can be found here *EDIT*.