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Tracking adaptive impedance robot control with visual feedback

Published online by Cambridge University Press:  09 April 2001

Vicente Mut
Affiliation:
Instituto de Automática, Universidad Nacional de San Juan, San Juan 5400 (Argentina)[email protected]
Oscar Nasisi
Affiliation:
Instituto de Automática, Universidad Nacional de San Juan, San Juan 5400 (Argentina)
Ricardo Carelli
Affiliation:
Instituto de Automática, Universidad Nacional de San Juan, San Juan 5400 (Argentina)
Benjamin Kuchen
Affiliation:
Instituto de Automática, Universidad Nacional de San Juan, San Juan 5400 (Argentina)

Abstract

In this paper we propose a tracking adaptive impedance controller for robots with visual feedback. It is based on a generalized impedance concept where the sensed distance is introduced as a fictitious force to the control in order to avoid obstacles in restricted motion tasks. The controller is designed to compensate for full non-linear robot dynamics. Robot parameters adjustment is introduced to reduce the sensibility of the controller design to dynamic uncertainties of the robot and the manipulated load. It is proved that the vision control errors are ultimately bounded in the image coordinate system. Simulations are carried out to evaluate the controller performance.

Type
Research Article
Copyright
© 2000 Cambridge University Press

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