Title :
Nonlinear robust control design for robotic manipulators with unmodelled actuator dynamics
Author :
Kaloust, J. ; Qu, Z. ; Ham, C.
Author_Institution :
Dept. of Electr. Eng., Central Florida Univ., Orlando, FL, USA
Abstract :
A robust control design for robot tracking is introduced in which both electrical and mechanical dynamics can be compensated for. The robot dynamics under consideration include large nonlinear uncertainties as well as unmodelled dynamics. The unmodelled dynamics are assumed to be stable, but can be of any order. The nonlinear robust control developed guarantees global stability of uniform ultimate boundedness, and it requires no feedback from either the actuator or unmodelled dynamics. Moreover, the acceleration measurements of the robot links are avoided in the control scheme
Keywords :
nonlinear control systems; electrical dynamics; global stability; large nonlinear uncertainties; mechanical dynamics; nonlinear robust control design; robot tracking; robotic manipulators; stable unmodelled actuator dynamics; uniform ultimate boundedness; AC motors; Actuators; Manipulator dynamics; Nonlinear dynamical systems; Robots; Robust control; Robust stability; Robustness; Uncertainty; Vectors;
Conference_Titel :
Control Applications, 1995., Proceedings of the 4th IEEE Conference on
Conference_Location :
Albany, NY
Print_ISBN :
0-7803-2550-8
DOI :
10.1109/CCA.1995.555878
