Robust H∞ control for uncertain discrete-time stochastic neural networks with time-varying delays

R. Sakthivel; K. Mathiyalagan; S. Marshal Anthoni

Robust H_∞ control for uncertain discrete-time stochastic neural networks with time-varying delays

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Robust H_∞ control for uncertain discrete-time stochastic neural networks with time-varying delays

Author(s): R. Sakthivel ; K. Mathiyalagan ; S. Marshal Anthoni
DOI: 10.1049/iet-cta.2011.0254

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Author(s): R. Sakthivel ¹ ; K. Mathiyalagan ² ; S. Marshal Anthoni ²
- Affiliations: 1: Department of Mathematics, Sungkyunkwan University, Suwon, South Korea
  2: Department of Mathematics, Anna University of Technology, Coimbatore, India
Source: Volume 6, Issue 9, 14 June 2012, p. 1220 – 1228
DOI: 10.1049/iet-cta.2011.0254 , Print ISSN 1751-8644, Online ISSN 1751-8652

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In the last few years, the H_∞ control problem has attracted much attention because of its both practical and theoretical importance. This study presents a robust H_∞ control design approach for a class of uncertain discrete-time stochastic neural networks with time-varying delays. The neural network under consideration is subject to time-varying and norm bounded parameter uncertainties. For the robust stabilisation problem, a state feedback controller is designed to ensure global robust stability of the closed-loop form of neural network about its equilibrium point for all admissible uncertainties. In addition, to the requirement of the global robust stability, a prescribed H_∞ performance level for all delays to satisfy both the lower bound and upper bound of the interval time-varying delay is required to be obtained. Through construction of a new Lyapunov–Krasovskii functional, a robust H_∞ control scheme is presented in terms of linear matrix inequalities (LMIs). The controller gains can be derived by solving a set of LMIs. Finally, numerical examples with simulation results are given to illustrate the effectiveness of the developed theoretical results.

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Robust H_∞ control for uncertain discrete-time stochastic neural networks with time-varying delays

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