Litcius/Paper detail

Event-Triggered Control for Switched Systems Under Multiasynchronous Switching

Yiwen Qi, Xiujuan Zhao, Jun Fu, Pengyu Zeng, Wenke Yu

2021IEEE Transactions on Systems Man and Cybernetics Systems59 citationsDOI

Abstract

This article investigates stabilization problems of networked event-triggered switched systems under multiasynchronous switching. Different from the existing asynchronous literature, a novel problem is considered in this article, i.e., the event-triggering scheme and controller both have independent switching delays relative to the system, which is called multiasynchronous switching. An adaptive event-triggering scheme with switching structure is utilized to achieve better adjustment in triggering frequency. A systematic framework for analyzing multiasynchronous switching stability and solving controller gains is established. Different Lyapunov functionals are employed, and new tight bound conditions on average dwell time are constructed. Besides, an active packet loss approach for handling packets disorder issues caused by large transmission delays is presented. Since the activation instants of the system, triggering scheme, and controller are mutually staggered with the data updating instants of the actuator, a novel analytical method aiming at the coupling effect is proposed. Finally, the validity of the adopted method in this article is demonstrated.

Topics & Concepts

Dwell timeControl theory (sociology)Computer scienceAsynchronous communicationNetwork packetController (irrigation)ActuatorScheme (mathematics)Transmission delayTransmission (telecommunications)Event (particle physics)Stability (learning theory)Control (management)MathematicsComputer networkTelecommunicationsAgronomyQuantum mechanicsMachine learningMathematical analysisBiologyPhysicsMedicineClinical psychologyArtificial intelligenceStability and Control of Uncertain SystemsNeural Networks Stability and SynchronizationStability and Controllability of Differential Equations