A robot manipulator communications and control framework

The use of industrial scale experimental machinery robot systems such as the Mitsubishi RV-2AJ manipulator in research to experimentally prove new theories is a great opportunity. The robot manipulator communications and control framework written in Java simplifies the use of Mitsubishi robot manipulators and provides communication between a personal computer and the robot. Connecting a personal computer leads to different communication modes each with specific properties, explained in detail. Integration of the framework for scientific use is shown in conjunction with a graphical user-interface and within Simulink as a Simulink block. An example application for assisted robot program generation is described.

[1]  A.G. Pipe,et al.  Nonholonomic Motion Planning by Means of Particles , 2006, 2006 International Conference on Mechatronics and Automation.

[2]  Peter Corke,et al.  Visual Control of Robots: High-Performance Visual Servoing , 1996 .

[3]  Peter Corke,et al.  The machine vision toolbox , 2005 .

[4]  Peter I. Corke The Machine Vision Toolbox: a MATLAB toolbox for vision and vision-based control , 2005, IEEE Robotics & Automation Magazine.

[5]  Hanspeter A. Mallot,et al.  Neuronale Netze , 2003, Handbuch der Künstlichen Intelligenz.