Proportional-integral synchronization control for complex dynamical networks: a switching event-triggered approach

Jinghui Suo; Miaomiao Shi

doi:10.1117/12.2661216

9 December 2022 Proportional-integral synchronization control for complex dynamical networks: a switching event-triggered approach

Jinghui Suo, Miaomiao Shi

Author Affiliations +

Proceedings Volume 12492, International Workshop on Automation, Control, and Communication Engineering (IWACCE 2022); 124920K (2022) https://doi.org/10.1117/12.2661216
Event: International Workshop on Automation, Control, and Communication Engineering (IWACCE 2022), 2022, Wuhan, China

Abstract

The proportional-integral synchronization control problem is investigated for a class of complex dynamical networks with coupling delay via a switching event-triggered mechanism. A switching event-triggered mechanism is adopted to determine when a certain control signal should be transmitted, which reduces the updates of the controllers and excludes the Zeno behavior. A synchronization criterion for complex dynamical networks, under a proportional-integral control strategy, is established. In addition, the proportional-integral controller gain matrices and the event-triggered parameters are jointly designed. The validity of the proposed results could be illustrated by a numerical example.

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Jinghui Suo and Miaomiao Shi "Proportional-integral synchronization control for complex dynamical networks: a switching event-triggered approach", Proc. SPIE 12492, International Workshop on Automation, Control, and Communication Engineering (IWACCE 2022), 124920K (9 December 2022); https://doi.org/10.1117/12.2661216

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KEYWORDS

Matrices

Switching

Information science

Information technology

Numerical simulations

Sensors

Systems modeling

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