Title :
Stable inversion control for flexible-link cooperating manipulators: a case study of a four-bar linkage mechanism
Author_Institution :
Dept. of Mech. & Manuf. Eng., Calgary Univ., Alta., Canada
Abstract :
We consider the nonlinear inversion control for flexible-link cooperating manipulators, also known as the inverse dynamics control or the computed torque method for rigid manipulators. Difficulties in applying this method to the control of flexible link manipulators are due to the fact that the inverse dynamics system is generally unstable. As such, bounded actuator torques cannot be guaranteed. For multiple manipulators handling a common object, there are more actuators than the degrees of freedom of the system. We investigate possibilities of using the actuation redundancy to stabilize the inverse dynamics system. Consequently, nonlinear inversion control can be applied to object trajectory tracking
Keywords :
flexible manipulators; manipulator dynamics; multi-robot systems; nonlinear control systems; robust control; tracking; actuation redundancy; computed torque method; cooperating manipulators; flexible-link manipulators; four-bar linkage mechanism; inverse dynamics control; multiple manipulators; nonlinear inversion control; stabilization; trajectory tracking; Actuators; Arm; Computer aided software engineering; Control systems; Force control; Manipulator dynamics; Nonlinear dynamical systems; Robot kinematics; Torque control; Trajectory;
Conference_Titel :
Advanced Intelligent Mechatronics, 1999. Proceedings. 1999 IEEE/ASME International Conference on
Conference_Location :
Atlanta, GA
Print_ISBN :
0-7803-5038-3
DOI :
10.1109/AIM.1999.803180
