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Variable structure robot control undergoing chattering attenuation: adaptive and nonadaptive cases

Vicente Parra‐Vega, Yun-Hui Liu, S. Arimoto

Year
2002
Citations
21

Abstract

This paper has a twofold objective: 1) to show that, when an adaptive law designed with a Lyapunov function and dependant also of the parametric error is introduced into a variable structure controller the existence of a sliding mode is no longer guaranteed for all t; and 2) a time varying boundary layer modulated by the tracking errors to propose a variable structure robot control with asymptotic stability. It is shown that the high activity on the actuators, typical of variable structure controllers, can be arbitrarily reduced in both adaptive and nonadaptive cases. These controllers give rise to the asymptotic stability and at the same time the sliding mode is guaranteed with very small chattering. A trade off arises in terms of chattering and robustness but the convergence of tracking errors is always assured. Computer simulations show the performance of the proposed controllers with comparison of two other algorithms.< <ETX xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">&gt;</ETX>

Keywords

Control theory (sociology)Robustness (evolution)Variable structure controlExponential stabilityAdaptive controlParametric statisticsLyapunov functionVariable (mathematics)Computer scienceSliding mode control

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