Non-fragile dissipative filtering of cyber–physical systems with random sensor delays

This paper considers the problem of non-fragile state estimation under dissipative constraint for a class of nonlinear cyber–physical systems (CPSs) with sensor delays. The dynamics of the considered CPSs is characterized by the well-known T–S fuzzy model and system measurements are valued by wirele...

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Bibliographic Details
Published inISA transactions Vol. 104; pp. 115 - 121
Main Authors Wan, Jun, Hu, Zhongrui, Cai, Jianping, Luo, Yunxia, Mei, Congli, Han, Antai
Format Journal Article
LanguageEnglish
Published United States Elsevier Ltd 01.09.2020
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Summary:This paper considers the problem of non-fragile state estimation under dissipative constraint for a class of nonlinear cyber–physical systems (CPSs) with sensor delays. The dynamics of the considered CPSs is characterized by the well-known T–S fuzzy model and system measurements are valued by wireless sensors. The communication link between the filter and the plant is described by a relatively practical model and sensor delays occurred in signal transmissions are taken into consideration. A stochastic variable which yields the standard Bernoulli distribution is exploited to model sensor delays encountered by the sensor measurements. With the help of a basis-dependent Lyapunov function and predefined performance constraint, sufficient conditions are then developed to establish the stochastic stability as well as strict dissipativity for the resultant filtering error system. The existence of the corresponding filter is guaranteed and the expression of desired filter parameters are shown explicitly. In the end, the established theoretical results are validated by a tunnel diode circuit example and corresponding simulations are also provided.
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ISSN:0019-0578
1879-2022
DOI:10.1016/j.isatra.2020.01.001