Title :
Robust position, motion-inducing force, and internal force control for multi-robot system
Author :
Kim, Chong Soo ; Park, Sei Seung ; Park, Chong Kug
Author_Institution :
Dept. of Comput. Sci., SangJi Univ., Kangwon-Do, South Korea
fDate :
29 Sep-1 Oct 1997
Abstract :
The forces exerted on an object by the each end-effector of multimanipulators are decomposed into the motion-inducing force and the internal force. Motion-inducing force contributes to the motion of an object and internal force can not do it. The motion of an object can´t track exactly the desired motion because of internal force component, therefore internal force component must be considered. In this paper, using the resolved acceleration control method and the fact that internal force lies in the null space of Jacobian matrix, we construct independently the position, motion-inducing force and internal force controller. Secondly we construct the robust controller to preserve the robustness with respect to the uncertainty of manipulator parameters
Keywords :
Jacobian matrices; control system synthesis; cooperative systems; force control; manipulator dynamics; path planning; position control; robust control; uncertain systems; Jacobian matrix null space; end-effector; internal force control; manipulator parameter uncertainty; motion-inducing force control; multimanipulators; multirobot system; position control; resolved acceleration control method; robust controller construction; Automatic control; Force control; Jacobian matrices; Manipulator dynamics; Motion control; Multirobot systems; Null space; Orbital robotics; Robot kinematics; Robust control;
Conference_Titel :
Robot and Human Communication, 1997. RO-MAN '97. Proceedings., 6th IEEE International Workshop on
Conference_Location :
Sendai
Print_ISBN :
0-7803-4076-0
DOI :
10.1109/ROMAN.1997.646957
