Generalised state estimation of Markov jump neural networks based on the Bessel–Legendre inequality

In the study, the authors are interested in investigating the stability analysis and state estimation of Markov jump static neural networks subject to time delays by the feat of Bessel–Legendre inequality. A canonical Bessel–Legendre inequality, which converts the limited interval $[-h, 0]$[−h,0] re...

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Published inIET control theory & applications Vol. 13; no. 9; pp. 1284 - 1290
Main Authors Shen, Hao, Jiao, Shiyu, Xia, Jianwei, Park, Ju H, Huang, Xia
Format Journal Article
LanguageEnglish
Published The Institution of Engineering and Technology 11.06.2019
Subjects
asymptotic stability
Bessel–Legendre inequality
delay systems
delays
generalised state estimation
Lyapunov methods
Markov jump neural networks
Markov jump static neural networks
Markov processes
neurocontrollers
observer
Special Issue: Recent Advances in Control and Verification for Hybrid Systems
stability
stability analysis
state estimation
stochastic systems
time delays
delay systems
stability analysis
Bessel–Legendre inequality
time delays
asymptotic stability
observer
Markov jump static neural networks
Markov jump neural networks
neurocontrollers
delays
Markov processes
stochastic systems
generalised state estimation
state estimation
stability
Lyapunov methods
Online AccessGet full text
ISSN1751-8644
1751-8652
DOI10.1049/iet-cta.2018.5618

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Abstract In the study, the authors are interested in investigating the stability analysis and state estimation of Markov jump static neural networks subject to time delays by the feat of Bessel–Legendre inequality. A canonical Bessel–Legendre inequality, which converts the limited interval $[-h, 0]$[−h,0] required in traditional Bessel–Legendre inequality to a general interval $[a, b]$[a,b] is employed. Accordingly, compared with the existing results, the restriction is naturally relaxed and the less conservative criterion is presented. The stability analysis is complicated after constructing an enhanced Lyapunov–Krasovskii functional suitable for the canonical Bessel–Legendre inequality. Furthermore, taking account of the information of system mode, the mode-dependent scheme is applied to the design of a state estimator. Corresponding results to the stability of the estimation error system and the acquisition of the desired observer are presented. In the end, an example, which proves the validity of the method is given.
AbstractList In the study, the authors are interested in investigating the stability analysis and state estimation of Markov jump static neural networks subject to time delays by the feat of Bessel–Legendre inequality. A canonical Bessel–Legendre inequality, which converts the limited interval [−h,0] required in traditional Bessel–Legendre inequality to a general interval [a,b] is employed. Accordingly, compared with the existing results, the restriction is naturally relaxed and the less conservative criterion is presented. The stability analysis is complicated after constructing an enhanced Lyapunov–Krasovskii functional suitable for the canonical Bessel–Legendre inequality. Furthermore, taking account of the information of system mode, the mode‐dependent scheme is applied to the design of a state estimator. Corresponding results to the stability of the estimation error system and the acquisition of the desired observer are presented. In the end, an example, which proves the validity of the method is given.
In the study, the authors are interested in investigating the stability analysis and state estimation of Markov jump static neural networks subject to time delays by the feat of Bessel–Legendre inequality. A canonical Bessel–Legendre inequality, which converts the limited interval $[-h, 0]$[−h,0] required in traditional Bessel–Legendre inequality to a general interval $[a, b]$[a,b] is employed. Accordingly, compared with the existing results, the restriction is naturally relaxed and the less conservative criterion is presented. The stability analysis is complicated after constructing an enhanced Lyapunov–Krasovskii functional suitable for the canonical Bessel–Legendre inequality. Furthermore, taking account of the information of system mode, the mode-dependent scheme is applied to the design of a state estimator. Corresponding results to the stability of the estimation error system and the acquisition of the desired observer are presented. In the end, an example, which proves the validity of the method is given.
In the study, the authors are interested in investigating the stability analysis and state estimation of Markov jump static neural networks subject to time delays by the feat of Bessel–Legendre inequality. A canonical Bessel–Legendre inequality, which converts the limited interval required in traditional Bessel–Legendre inequality to a general interval is employed. Accordingly, compared with the existing results, the restriction is naturally relaxed and the less conservative criterion is presented. The stability analysis is complicated after constructing an enhanced Lyapunov–Krasovskii functional suitable for the canonical Bessel–Legendre inequality. Furthermore, taking account of the information of system mode, the mode‐dependent scheme is applied to the design of a state estimator. Corresponding results to the stability of the estimation error system and the acquisition of the desired observer are presented. In the end, an example, which proves the validity of the method is given.
Author Huang, Xia
Shen, Hao
Jiao, Shiyu
Xia, Jianwei
Park, Ju H
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Issue 9
Keywords delay systems
stability analysis
Bessel–Legendre inequality
time delays
asymptotic stability
observer
Markov jump static neural networks
Markov jump neural networks
neurocontrollers
delays
Markov processes
stochastic systems
generalised state estimation
state estimation
stability
Lyapunov methods
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  doi: 10.1016/j.neucom.2017.05.005
– year: 2017
  ident: e_1_2_8_15_1
  article-title: Nonfragile control for fuzzy Markovian jump systems under fast sampling singular perturbation
  publication-title: IEEE Trans. Syst. Man Cybernet. Syst.
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Snippet In the study, the authors are interested in investigating the stability analysis and state estimation of Markov jump static neural networks subject to time...
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iet
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StartPage 1284
SubjectTerms asymptotic stability
Bessel–Legendre inequality
delay systems
delays
generalised state estimation
Lyapunov methods
Markov jump neural networks
Markov jump static neural networks
Markov processes
neurocontrollers
observer
Special Issue: Recent Advances in Control and Verification for Hybrid Systems
stability
stability analysis
state estimation
stochastic systems
time delays
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Title Generalised state estimation of Markov jump neural networks based on the Bessel–Legendre inequality
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