Event-triggered dynamic output quantized control for 2-D switched systems
Articles
Lei Shi
Guilin University of Technology
Rongqiang Tang
Sichuan University
Xinsong Yang
Sichuan University
https://orcid.org/0000-0003-3599-5020
Jiaxuan Ding
Guilin University of Technology
Zhilu Xu
Sichuan University
https://orcid.org/0000-0002-2926-6430
Yingchun Li
Guilin University of Technology
Published 2022-12-23
https://doi.org/10.15388/namc.2023.28.29622
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Keywords

2-D switched system
dwell time
event-triggered
quantization
stabilization

How to Cite

Shi, L. (2022) “Event-triggered dynamic output quantized control for 2-D switched systems”, Nonlinear Analysis: Modelling and Control, 28(1), pp. 34–55. doi:10.15388/namc.2023.28.29622.

Abstract

It is well known that designing mode-dependent event-triggered control (MDETC) brings challenging difficulties to theoretical analysis, especially for two-dimensional (2-D) switched systems. Therefore, for 2-D switched Fornasini–Marchesini local state-space (FMLSS) systems, this paper designs a MDETC to investigate global exponential stabilization almost surely (GES a.s.). A MDETC based on dynamic output quantization control scheme is designed, which not only has a wide range of practicability, but also greatly saves network bandwidth resources. By constructing mode-dependent Lyapunov functions that include two time directions, some novel sufficient conditions are provided such that the switched FMLSS system achieves GES a.s. Unlike most previous results, our results do not require each mode to be stable, not even after adding control. Finally, numerical experiments are provided to verify the validity of our main theoretical results.

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