Title :
Robust linear compensator design for nonlinear robotic control
Author :
Spong, Mark W. ; Vidyasagar, M.
Author_Institution :
University of Illinois at Urbana-Champaign, Urbana, Ill
Abstract :
In this paper we investigate the application to the motion control of n-link robotic manipulators of the recently developed stable factorization approach to tracking and disturbance rejection. Given a nominal model of the manipulator dynamics, the control scheme consists of an approximate feedback linearizing control followed by a linear compensator design based on the stable factorization approach to achieve optimal tracking and disturbance rejection. Using a multi-loop version of the small gain theorem [17], the applicability of the linear design techniques and the stability of the closed loop system are rigorously demonstrated.
Keywords :
Closed loop systems; Linear approximation; Linear feedback control systems; Manipulator dynamics; Motion control; Optimal control; Robot control; Robust control; Stability; Tracking;
Conference_Titel :
Robotics and Automation. Proceedings. 1985 IEEE International Conference on
DOI :
10.1109/ROBOT.1985.1087288
