APPLICATION OF SIMULATION MODELS FOR PROGRAMMING OF ROBOTS

Beata Jakubiec

Abstract


In recent years, there has been an increasing robotization of many areas of life. This requires knowledge of issues related to robots and their programming. Devices of this type, especially large industrial or medical robots, are very expensive, or they may be hardly affordable for educational purposes. Simulation models are helpful in such situation. The aim of the article is to present the possibilities of using simulation models of robots and robotic stations in the educational and research process. Specialized software packages make it easier not only to understand how robots work, but they also allow to test different operating conditions of the designed computer model of the real robotized process.

Keywords


programming; robot; simulation model

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References


Anderson, K. (2014). Design Energy Simulation for Architects: Guide to 3D Graphics. Routledge.

Cogmation (2018). Virtual Robotics Toolkit for LEGO Mindstorms Retrieved from https://www.virtualroboticstoolkit.com

Comau (2018). RoboSim Pro software Retrieved from www.comau.com

Coppelia (2016). V-REP PRO EDU Retrieved from www.coppeliarobotics.com

Corke, P. (2016). Robotics Toolbox Retrieved from petercorke.com/wordpress/

Cyberbotics (2018). Webots software Retrieved from https://www.cyberbotics.com

Fanuc (2016). ROBOGUIDE software Retrieved from www.fanuc.eu

Grabusts, P. (2017). Simulation modelling possibilities in teaching economic processes. Society, Integration, Education, Proceedings of the International Scientific Conference. Volume III, May 26th-27th 2017, 463-471.

Robomatter (2017). Robot Virtual Worlds software Retrieved from www.robotvirtualworlds.com

Kawasaki (2014). K-ROSET software Retrieved from https://robotics.kawasaki.com

KUKA (2015). KUKA.Sim Pro software Retrieved from https://www.kuka.com

LEGO (2017). Retrieved from https://www.lego.com

MathWorks (2017). Robotic Systems Toolbox Retrieved from https://www.mathworks.com

Olesiak, K. (2017). Application of fuzzy logic toolbox for modelling fuzzy logic controllers. Society, Integration, Education, Proceedings of the International Scientific Conference. Volume III, May 26th-27th 2017, 539-546.

Prauzner, T. (2016). Interactive computer simulation as a response to contemporary problems of technical education. Society. Integration. Education, Proceedings of the International Scientific Conference. Volume II, May 27th – 28th 2016, 579-588.

Ptak, P. (2017). Application of computer programmes in research projects and teaching. Society, Integration, Education, Proceedings of the International Scientific Conference. Volume III, May 26th-27th 2017, 565-574.

Robo, D.K. (2017). RoboDK software Retrieved from https://robodk.com




DOI: http://dx.doi.org/10.17770/sie2018vol1.3214

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