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Direct Adaptive Backstepping Control with Tuning Functions for a Single-Link Flexible-Joint Robot

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1st International Workshop on Advanced Control, IWAC2014 Guelma, Algeria, November 3-4, 2014

Direct Adaptive Backstepping Control with Tuning Functions for a Single-Link Flexible-Joint Robot

Y. Soukkou 1, A. Boutaghane 1 and H. Khebbache 2

1 Welding and NDT Research Center (CSC), BP. 64, Cheraga, Algiers, Algeria

2 Laboratoire de Commande des Processus (LCP), Automatic Control Department, National Polytechnic School, 10, Av.

Hassen Badi, BP. 182, El-Harrach, Algiers, Algeria

[email protected]; [email protected]; [email protected]

ABSTRACT

In this paper, direct adaptive backstepping control with tuning functions approach for a single-link flexible-joint robot model is proposed. The proposed approach of adaptation is based on the tracking error based parameter adaptation law. First, the direct adaptive backstepping control with tuning functions is applied for a class of nonlinear systems in parametric strict-feedback form to avoid overparametrization. Next, the main steps of the controller design for a single-link flexible-joint robot manipulator model are described. The stability of the proposed controller is studied by using the Lyapunov functions. Finally, the simulation results are given to demonstrate the performance of the proposed approach.

INDEX TERMS

Single-link flexible-joint robot, backstepping control, direct adaptive control, tuning functions, direct adaptation.

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