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TRACKING CONTROL IN THE PRESENCE OF NONLINEAR DYNAMIC FRICTIONAL EFFECTS: ROBOT EXTENSION

M. Feemster, D.M. Dawson, Aman Behal, Warren E. Dixon

Year
1999
Citations
8

Abstract

In this paper, we extend the observer/control strategies previously published in [25] to an n ‐link, serially connected, direct drive, rigid link, revolute robot operating in the presence of nonlinear friction effects modeled by the Lu‐Gre model. In addition, we also present a new adaptive control technique for compensating for the nonlinear parameterizable Stribeck effects. Specifically, an adaptive observer/controller scheme is developed which contains a feedforward approximation of the Stribeck effects. This feedforward approximation is used in a composite controller/observer strategy which forces the average square integral of the position tracking error to an arbitrarily small value. Experimental results are included to illustrate the performance of the proposed controllers.

Keywords

Control theory (sociology)Feed forwardNonlinear systemRevolute jointObserver (physics)Controller (irrigation)Tracking errorControl engineeringTracking (education)Extension (predicate logic)

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