Stabilization of Delta Operator Systems with Actuator Saturation via an Anti-Windup Compensator

Hafsaa Rachid; Ouarda Lamrabet; El  Houssaine Tissir

doi:10.3390/sym11091084

Symmetry (Aug 2019)

Stabilization of Delta Operator Systems with Actuator Saturation via an Anti-Windup Compensator

Hafsaa Rachid,
Ouarda Lamrabet,
El Houssaine Tissir

Affiliations

Hafsaa Rachid: LESSI, Department of Physics, Faculty of Sciences Dhar El Mehraz, University of Sidi Mohammed Ben Abdellah, Fes B.P. 1796, Fes-Atlas 30000, Morocco
Ouarda Lamrabet: LESSI, Department of Physics, Faculty of Sciences Dhar El Mehraz, University of Sidi Mohammed Ben Abdellah, Fes B.P. 1796, Fes-Atlas 30000, Morocco
El Houssaine Tissir: LESSI, Department of Physics, Faculty of Sciences Dhar El Mehraz, University of Sidi Mohammed Ben Abdellah, Fes B.P. 1796, Fes-Atlas 30000, Morocco

DOI: https://doi.org/10.3390/sym11091084
Journal volume & issue: Vol. 11, no. 9
p. 1084

Abstract

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The design of an anti-windup controller for delta operator systems with time-varying delay and actuator saturation is addressed. By utilizing the input-output approach and three-term approximation, we first transform the original system into two equivalent interconnected subsystems. Then, by employing the scaled small-gain theorem, the Lyapunov−Krasovskii functional, and Wirtinger’s integral inequality, sufficient conditions for the synthesis of an anti-windup compensator are presented in the form of linear matrix inequalities (LMIs). The estimated domain of attraction is maximized by an optimization algorithm. Numerical examples are studied to show the merits of the proposed technique.

Published in Symmetry

ISSN: 2073-8994 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Mathematics
Website: http://www.mdpi.com/journal/symmetry/

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