Dissipativity analysis for discrete-time stochastic neural networks with time-varying delays
Date
2013
Authors
Wu, Z.
Shi, P.
Su, H.
Chu, J.
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Journal article
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IEEE Transactions on Neural Networks and Learning Systems, 2013; 24(3):345-355
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Zheng-Guang Wu, Peng Shi, Hongye Su, and Jian Chu
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Abstract
In this paper, the problem of dissipativity analysis is discussed for discrete-time stochastic neural networks with time-varying discrete and finite-distributed delays. The discretized Jensen inequality and lower bounds lemma are adopted to deal with the involved finite sum quadratic terms, and a sufficient condition is derived to ensure the considered neural networks to be globally asymptotically stable in the mean square and strictly $({Q},{S},{R}){hbox{-}}gamma$-dissipative, which is delay-dependent in the sense that it depends on not only the discrete delay but also the finite-distributed delay. Based on the dissipativity criterion, some special cases are also discussed. Compared with the existing ones, the merit of the proposed results in this paper lies in their reduced conservatism and less decision variables. Three examples are given to illustrate the effectiveness and benefits of our theoretical results.
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© 2013 IEEE