Stability analysis for stochastic neutral switched systems with time-varying delay
Date
2020
Authors
Chen, H.
Lim, C.C.
Shi, P.
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SIAM Journal on Control and Optimization, 2020; 59(1):24-49
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Huabin Chen, Cheng-Chew Lim and Peng Shi
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Abstract
This paper addresses the problems of the stochastic input-to-state stability for neutral switched stochastic delay systems. Two switching signals in the input controller, including the externalh input disturbance, are considered: (1) the synchronous switching signal, which indicates that the switching signal of the input controller coincides with that of the controlled subsystems, and (2) the asynchronous switching signal, which signifies that two switching instants for the input controller and the subsystem are not identical. Irrespective of which switching signal exists in the input controller and the subsystem, multiple Lyapunov-Krasovskii functions, generalized delay integral inequality, and mode-hdependent average dwell time are incorporated to analyze the underlying problem. Sufficient conditions based on two integral inequalities are obtained for these two cases, respectively. Also new and more relaxed Lyapunov monotonicity conditions are introduced. One simulation example is nprovided to demonstrate the effectiveness of the theoretical results.
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© 2021, Society for Industrial and Applied Mathematics