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Robust Asynchronous H∞ Observer-Based Control Design for Discrete-Time Switched Singular Systems with Time-Varying Delay and Sensor Saturation: An Average Dwell Time Approach

Mohamed Amin Regaieg, Mourad Kchaou, Houssem Jerbi, Attia Boudjemline, Ahmed Hafaifa

2021Electronics10 citationsDOIOpen Access PDF

Abstract

This work discuss the robust stabilization problem for discrete-time switched singular systems with simultaneous presence of time-varying delay and sensor nonlinearity. To this end, an observer-based controller was synthesized that works under asynchronous switching signals. Investigating the average dwell time approach and using a Lyapunov–Krasovskii functional with triple sum terms, sufficient conditions were derived for achieving the existence of such asynchronous controller and guaranteeing the resulting closed-loop system to be exponentially admissible with H∞ performance level. Subsequently, the effectiveness of the proposed control scheme was verified through two numerical examples.

Topics & Concepts

Dwell timeControl theory (sociology)Asynchronous communicationDiscrete time and continuous timeObserver (physics)Nonlinear systemExponential stabilityController (irrigation)MathematicsRobust controlComputer scienceControl (management)Computer networkClinical psychologyQuantum mechanicsStatisticsMedicinePhysicsArtificial intelligenceBiologyAgronomyStability and Control of Uncertain SystemsNeural Networks Stability and SynchronizationControl and Stability of Dynamical Systems
Robust Asynchronous H∞ Observer-Based Control Design for Discrete-Time Switched Singular Systems with Time-Varying Delay and Sensor Saturation: An Average Dwell Time Approach | Litcius