LMI optimization problem of delay-dependent robust stability criteria for stochastic systems with polytopic and linear fractional uncertainties

Abstract: This paper studies an LMI optimization problem of delay-dependent robust stability criteria for stochastic systems with polytopic and linear fractional uncertainties. The delay is assumed to be time-varying and belong to a given interval, which means that lower and upper bounds of this interval time-varying delay are available. The uncertainty under consideration includes polytopic-type uncertainty and linear fractional norm-bounded uncertainty. Based on the new Lyapunov-Krasovskii functional, some inequality … Show more

“…Theorem 1. Mechanical system (17) is asymptotically stable in mean square through feedback stochastic sampled-data control (12) with disturbance attenuation γ > 0, if there exist positive definite matricesP,…”

“…The problem of state estimation for phase-type semi-Markovian jump systems using sliding mode controller is discussed in [8]. Usually uncertainties are considered to be norm-bounded but since fractional uncertainties are more general than norm-bounded uncertainties, stability analysis of systems with linear fractional uncertainties has been carried out in the literature, see [9][10][11][12]. The problem of robust stability for neural networks with time-varying delays and parametric uncertainties has been investigated in [10].…”

“…The problem of robust stability for neural networks with time-varying delays and parametric uncertainties has been investigated in [10]. Delay-interval-dependent robust stability criteria for neutral stochastic neural networks and stochastic systems with polytopic and linear fractional uncertainties has been derived in [11,12], respectively.…”

Robust Stochastic Sampled-Data H∞ Control for a Class of Mechanical Systems With Uncertainties

“…Theorem 1. Mechanical system (17) is asymptotically stable in mean square through feedback stochastic sampled-data control (12) with disturbance attenuation γ > 0, if there exist positive definite matricesP,…”

“…The problem of state estimation for phase-type semi-Markovian jump systems using sliding mode controller is discussed in [8]. Usually uncertainties are considered to be norm-bounded but since fractional uncertainties are more general than norm-bounded uncertainties, stability analysis of systems with linear fractional uncertainties has been carried out in the literature, see [9][10][11][12]. The problem of robust stability for neural networks with time-varying delays and parametric uncertainties has been investigated in [10].…”

“…The problem of robust stability for neural networks with time-varying delays and parametric uncertainties has been investigated in [10]. Delay-interval-dependent robust stability criteria for neutral stochastic neural networks and stochastic systems with polytopic and linear fractional uncertainties has been derived in [11,12], respectively.…”

Robust Stochastic Sampled-Data H∞ Control for a Class of Mechanical Systems With Uncertainties

“…Many results on stochastic neural networks have been reported in . Some sufficient criteria on the stability of uncertain stochastic neural networks were derived in [4][5][6][7]. Almost sure exponential stability of stochastic neural networks was studied in [8][9][10].…”

Dynamical Behaviors of Stochastic Hopfield Neural Networks with Both Time-Varying and Continuously Distributed Delays

“…In the TS context, the last decade has witnessed an abundance of results on a variety of issues related to time-delay systems: stability using the Lyapunov-Razumikhin functional approach (Cao and Frank, 2001), stability criteria for a class of nonlinear stochastic systems with time delay (Wang et al, 2004;Li et al, 2011;Balasubramaniam et al, 2012), design of feedback controllers design for nonlinear interval time-delay systems via a T-S model (Chang et al, 2004), design of guaranteed cost control for T-S systems with delays (Chen and Liu, 2005;Chen et al, 2007b;2007a;Kang and Wang, 2010) observer-based H-infinity control for time-delay T-S (Lin et al, 2007), α-dissipative control for T-S fuzzy descriptor systems with time delay (Gassaraa et al, 2014). Most of these results take advantage of the possibility of rewriting Lyapunov-Krasovskii functionals as convex expressions by inheritance of the model convex structure: this investigation follows that path.…”

Exponential Estimates of a Class of Time–Delay Nonlinear Systems with Convex Representations