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Robust implementation of generalized impedance control for robot manipulators

S.P. Chan, H. P.Chen

Year
2001
Citations
13

Abstract

Compliant manipulation requires the robot to follow a motion trajectory and to exert a force profile while making compliant contact with a dynamic environment. For this purpose, a generalized impedance in the task space consisting of a second-order function relating motion errors and interaction force errors is introduced such that force tracking can be achieved. Using variable structure model reaching control, the generalized impedance is realized in the presence of parametric uncertainties. The proposed control method is applied to a multi-d.o.f. robot for an assembly task of inserting a printed circuit board into an edge connector socket. It is suggested that an assembly strategy which involves a sequence of planned target generalized impedances can enable the task to be executed in a desirable manner. The effectiveness of this approach is illustrated through experiments by comparing the results with those obtained using a model-based control implementation.

Keywords

Impedance controlControl theory (sociology)TrajectoryElectrical impedanceParametric statisticsRobotTask (project management)Contact forceMotion controlImpedance parameters

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