CoppeliaSim explained

Latest Release Version:4.7
Latest Release Date:June 14th, 2024
Developer:Coppelia Robotics AG
Operating System:Windows, Linux, macOS
License:Dual licensed (commercial or GPL)
Website:Coppelia Robotics web page

CoppeliaSim, formerly known as V-REP, is a robot simulator used in industry, education and research.[1] [2] It was originally developed within Toshiba R&D and is currently being actively developed and maintained by Coppelia Robotics AG, a small company located in Zurich, Switzerland.

It is built around a distributed control architecture having Python and Lua scripts, or C/C++ plug-ins acting as individual, synchronous controllers. Additional asynchronous controllers can execute in another process, thread or machine via various middleware solutions (ROS, remote API,[3] ZeroMQ) with programming languages such as C/C++, Python, Java and Matlab.

CoppeliaSim uses a kinematics engine for forward and inverse kinematics calculations, and several physics simulation libraries (MuJoCo, Bullet, ODE, Vortex, Newton Game Dynamics) to perform rigid body simulation. Models and scenes are built by assembling various objects (meshes, joints, various sensors, Point clouds, OC trees, etc.) into a hierarchical structure. Additional functionality, provided by plug-ins, include: motion planning (via OMPL), synthetic vision and imaging processing (e.g. via OpenCV), collision detection, minimum distance calculation, custom graphical user interfaces and Data visualization (e.g. via plots).

The main fields of application of CoppeliaSim are robotics research[4] and education.[5] [6] [7]

External links

Notes and References

  1. Rohmer. Eric. Singh . Surya P. N.. Freese. Marc. 2013 IEEE/RSJ International Conference on Intelligent Robots and Systems. 3 November 2013. Tokyo, Japan. 1321–1326. 10.1109/IROS.2013.6696520. CoppeliaSim (formerly V-REP): a Versatile and Scalable Robot Simulation Framework.
  2. Web site: CoppeliaSim / V-REP paper references. 9 September 2020.
  3. Web site: Remote API reference. 26 April 2021.
  4. A.. Jiménez. J.. Anzola. Vicente García-Díaz. Rubén González Crespo. L.. Zhao. PyDSLRep: A domain-specific language for robotic simulation in V-Rep. PLOS ONE. 2020. 15. 7. e0235271. 10.1371/journal.pone.0235271. 32609761. 7329094. 2020PLoSO..1535271J. free.
  5. Caio. Camargo. Gonçalves. José. Conde. Miguel Á.. Rodríguez-Sedano. Francisco J.. Costa. Paulo. García-Peñalvo. Francisco J.. Systematic Literature Review of Realistic Simulators Applied in Educational Robotics Context. Sensors. 2021. 21. 12. 4031. 10.3390/s21124031. 34208046. 8230607. free.
  6. Web site: CoppeliaSim Introduction - Northwestern Mechatronics Wiki. 2021-04-22. hades.mech.northwestern.edu.
  7. Pitonakova. Lenka. Giuliani. Manuel. Pipe. Anthony. Winfield. Alan. Giuliani. Manuel. Assaf. Tareq. Giannaccini. Maria Elena. Feature and Performance Comparison of the V-REP, Gazebo and ARGoS Robot Simulators. Towards Autonomous Robotic Systems. 2018. Springer International Publishing. 357–368. 978-3-319-96728-8.