Robust H∞ control of an uncertain bilateral teleoperation system using dilated LMIs

Author:

Gormus Bilal1ORCID,Yazici Hakan2ORCID,Küçükdemiral İbrahim Beklan3ORCID

Affiliation:

1. Department of Mechatronics Engineering, Istanbul Gedik University, Turkey

2. Department of Mechanical Engineering, Yildiz Technical University, Turkey

3. School of Computing, Engineering and Built Environment, Glasgow Caledonian University, UK

Abstract

A robust state-feedback [Formula: see text] controller is proposed for an uncertain bilateral teleoperation system having norm-bounded parametric uncertainties on mass and damping coefficients of the considered master/slave system. The proposed method ensures robust stability and successful reference tracking and force reflection performance. While Lyapunov stability is used to ensures asymptotic stability, the [Formula: see text] norm from exogenous input to the controlled output is utilized in satisfying the reference tracking and force reflection. As two performance objectives and robust stability requirement are conflicting with each other, the proposed controller reduces the associated conservatism with dilated linear matrix inequalities. Standard and dilated linear matrix inequality-based robust [Formula: see text] state-feedback controllers are performed with a one degree of freedom uncertain master/slave system under reference signal and environmental-induced exogenous force. Numerical simulation results show that the dilated linear matrix inequality-based [Formula: see text] control satisfies lower [Formula: see text] norm than a standard [Formula: see text] control. Moreover, the proposed controller demonstrates a very successful performance in achieving performance objectives despite the stringent norm-bounded parameter uncertainties.

Publisher

SAGE Publications

Subject

Instrumentation

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