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Observer-based control of discrete-time Lipschitzian non-linear systems: application to one-link flexible joint robot

Salim Ibrir, Wen Xie, Chun‐Yi Su

Year
2005
Citations
99

Abstract

The problem of designing asymptotic observers along with observer-based feedbacks for a class of discrete-time non-linear systems is considered. We assume that the system non-linearity is globally Lipschitz and the system is supposed to be stabilizable by a linear controller. Sufficient linear matrix inequality condition is derived to ensure the stability of the considered system under the action of feedback control based on the reconstructed states. A numerical example of a single-link flexible joint robot is presented to illustrate the efficacy of the theoretical developments.

Keywords

Control theory (sociology)Observer (physics)Link (geometry)MathematicsLinear matrix inequalityLipschitz continuityExponential stabilityLinear systemController (irrigation)Stability (learning theory)

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