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MANIPULATION

An exponentially stable adaptive control for force and position tracking of robot manipulators

Luigi Villani, Carlos Canudas de Wit, Bernard Brogliato

Year
1999
Citations
81

Abstract

The problem of controlling a robot manipulator while the end effector is in contact with an environment of finite but unknown stiffness is considered. An exponentially stable control law is derived starting from a passivity-based position control algorithm. The original position trajectory is scaled along the interaction direction so as to achieve force tracking as well as position tracking along the unconstrained directions. A passivity-based adaptive algorithm is designed to avoid the explicit computation of the scaling factor, which depends on the unknown stiffness of the environment, leading to time-varying PID control actions on the force error.

Keywords

Control theory (sociology)Position (finance)PassivityTrajectoryStiffnessComputationTracking errorAdaptive controlTracking (education)Robot end effector

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