Title :
Dynamic hybrid position/force control of a flexible manipulator
Author :
Liu, Keping ; Li, Yuanchun ; Kang, Jian ; Qu, Xiaobo
Author_Institution :
Dept. of Ind. Autom., Jilin Inst. of Technol., Changchun, China
Abstract :
In this paper, a dynamic hybrid control method is proposed for constrained flexible manipulators. Based on the assumed mode method, the authors derive the dynamical equations of a constrained two-link flexible manipulator. They then divide it into a slow subsystem and a fast subsystem via a singular perturbation method. For the slow subsystem, the authors present a hybrid position/force control method based on force feedback. For the fast subsystem, they design a controller based on optimal theory. Simulation results prove the effectiveness of this method
Keywords :
control system analysis; control system synthesis; feedback; flexible manipulators; force control; optimal control; position control; assumed mode method; constrained two-link flexible manipulator; control design; control simulation; dynamic hybrid position/force control; dynamical equations; fast subsystem; force feedback; optimal control theory; singular perturbation method; slow subsystem; Cities and towns; Control systems; Equations; Force control; Force feedback; Manipulator dynamics; Optimal control; Perturbation methods; Stability analysis; Vibration control;
Conference_Titel :
Vehicle Electronics Conference, 1999. (IVEC '99) Proceedings of the IEEE International
Conference_Location :
Changchun
Print_ISBN :
0-7803-5296-3
DOI :
10.1109/IVEC.1999.830670
