Title :
Unified force and motion control using an open system real-time architecture on a 7 DOF PA-10 robot
Author :
Lim, Tao Ming ; Xia, Qing Hua ; Ang, Marcelo H., Jr. ; Lim, Ser Yong
Author_Institution :
Singapore Inst. of Manuf. Technol.
Abstract :
The operational space formulation provides a framework for the analysis and control of robotic systems with respect to interactions with their environments. Using the modified PA-10, we implemented unified force and motion control to achieve force and position tracking. Impact control algorithm has also been implemented to remove oscillation when the end-effector comes into contact with stiff environment. The control algorithm uses a PC to perform the required complex realtime computation. Coupled with the modification to the PA-10 controller, we are able to achieve high sampling rates with minimum communication latency which is crucial for our application. A software architecture was also developed which uses the concept of device drivers to achieve modularity in a realtime subsystem environment
Keywords :
control engineering computing; control nonlinearities; end effectors; force control; motion control; open systems; tracking; 7 DOF PA-10 robot; communication latency; complex realtime computation; device drivers concept; end-effector; force control; force tracking; impact control algorithm; modularity; motion control; motion tracking; open system real-time architecture; oscillation removal; realtime subsystem environment; sampling rates; software architecture; stiff environment; unified control; Communication system control; Control system analysis; Control systems; Force control; Motion control; Open systems; Orbital robotics; Real time systems; Robot control; Tracking;
Conference_Titel :
Advanced Intelligent Mechatronics. Proceedings, 2005 IEEE/ASME International Conference on
Conference_Location :
Monterey, CA
Print_ISBN :
0-7803-9047-4
DOI :
10.1109/AIM.2005.1511227
