Title :
Hybrid force/position control for manipulators with motor dynamics using a sliding-adaptive approach
Author_Institution :
Automation & Robotics Res. Inst., Fort Worth, TX, USA
fDate :
5/1/1995 12:00:00 AM
Abstract :
Based on a decomposition of the rigid robot system with motor dynamics, a novel sliding-adaptive controller is developed which can achieve robustness to parameter variations in both manipulator and motor. When the system is in sliding mode, force, position, and redundant joint velocity errors will approach zero irrespective of parametric uncertainties. Unlike conventional sliding techniques which are only robust to matched uncertainties, the proposed sliding method is robust to both matched and mismatched uncertainties. Hence the scope of applications of sliding mode method can be broadened to nonlinear systems with mismatched parameter variations. No joint acceleration measurement is needed
Keywords :
adaptive control; force control; manipulator dynamics; position control; redundancy; robust control; variable structure systems; force errors; hybrid force/position control; manipulators; motor dynamics; nonlinear systems; position errors; redundant joint velocity errors; rigid robot system decomposition; sliding-adaptive approach; sliding-adaptive controller; Accelerometers; Control systems; Force control; Manipulator dynamics; Nonlinear systems; Position control; Robots; Robust control; Robustness; Sliding mode control;
Journal_Title :
Automatic Control, IEEE Transactions on
