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【期刊论文】Global robust exponential stability analysis for interval recurrent neural networks✩
徐胜元, Shengyuan Xu a, James Lam b, ∗, Daniel W.C. Ho c, Yun Zou a
Physics Letters A 325(2004)124-133,-0001,():
-1年11月30日
This Letter investigates the problem of robust global exponential stability analysis for interval recurrent neural networks (RNNs) via the linear matrix inequality (LMI) approach. The values of the time-invariant uncertain parameters are assumed to be bounded within given compact sets. An improved condition for the existence of a unique equilibrium point and its global exponential stability of RNNs with known parameters is proposed. Based on this, a sufficient condition for the global robust exponential stability for interval RNNs is obtained. Both of the conditions are expressed in terms of LMIs, which can be checked easily by various recently developed convex optimization algorithms. Examples are provided to demonstrate the reduced conservatism of the proposed exponential stability condition.
Recurrent neural networks, Global exponential stability, Interval systems, Linear matrix inequality
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徐胜元, Shengyuan Xu, James Lam, Senior Member, IEEE
IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS—I: REGULAR PAPERS VOL.51 NO.9(2004)1897-1905,-0001,():
-1年11月30日
This paper deals with the problems of positive real (PR) analysis and PR control for uncertain discrete-time descriptor systems. The parameter uncertainties are assumed to be time-invariant norm bounded and appear in both the state and input matrices. A new necessary and sufficient condition for a discrete-time descriptor system to be regular, causal, stable and extended strictly PR (ESPR) is proposed in terms of a strict linear matrix inequality. Based on this, the concepts of strong robust admissibility with ESPR and strong robust admissibilizability with ESPR were introduced. Without any additional assumptions on the system matrices, necessary and sufficient conditions for strong robust admissibility with ESPR and strong robust admissibilizability with ESPR are obtained. Through these results, the problems of PR analysis and PR control are solved. Furthermore, an explicit expression of a desired state feedback controller is also given, which involves no decomposition of the system matrices.
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【期刊论文】 H∞ Filtering for Singular Systems
徐胜元, Shengyuan Xu, James Lam, Yun Zou
IEEE TRANSACTIONS ON AUTOMATIC CONTROL VOL.48 NO.12(2003)2217-2222,-0001,():
-1年11月30日
This note considers the H∞ filtering problem for linear continuous singular systems. The purpose is the design of a linear filter such that the resulting error system is regular, impulse-free and stable while the closed-loop transfer function from the disturbance to the filtering error output satisfies a prescribed H∞-norm bound constraint.Without decomposing the original system matrices, a necessary and sufficient condition for the solvability of this problem is obtained in terms of a set of linear matrix inequalities (LMIs). When these LMIs are feasible, an explicit expression of a desired filter is given. Finally, an illustrative example is presented to demonstrate the applicability of the proposed approach.
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【期刊论文】Reduced-Order H∞ Filtering for Stochastic Systems
徐胜元, Shengyuan Xu, Tongwen Chen
IEEE TRANSACTIONS ON SIGNAL PROCESSING VOL.50 NO.12(2002)2998-3007,-0001,():
-1年11月30日
This paper deals with the reduced-order H∞ filtering problem for stochastic systems. Necessary and sufficient conditions are obtained for the existence of solutions to the continuous-time and discrete-time problems in terms of certain linear matrix inequalities (LMIs) and a coupling nonconvex rank constraint condition. Furthermore, when these conditions are feasible, an explicit parametrization of all desired reduced-order filters corresponding to a feasible solution is given. In particular, when the reduced-order filter is restricted to be a static one, then simple conditions expressed by LMIs only without any rank constraints are derived, and a parametrization of all solutions is also given. Finally, an illustrative example is provided to show the effectiveness of the proposed approach.
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【期刊论文】H∞ and Positive-Real Control for Linear Neutral Delay Systems
徐胜元, Shengyuan Xu, James Lam, Chengwu Yang
IEEE TRANSACTIONS ON AUTOMATIC CONTROL VOL.46 NO.8(2001)1321-1326,-0001,():
-1年11月30日
This note is concerned with the H∞ and positive-real control problems for linear neutral delay systems. The purpose of H∞ control is the design of a memoryless state feedback controller which stabilizes the neutral delay system and reduces the H∞ norm of the closed-loop transfer function from the disturbance to the controlled output to a prescribed level, while the purpose of positive-real control is to design a memoryless state feedback controller such that the resulting closed-loop system is stable and the closed-loop transfer function is extended strictly positive real. Sufficient conditions for the existence of the desired controllers are given in terms of a linear matrix inequality (LMI). When this LMI is feasible, the expected memoryless state feedback controllers can be easily constructed via convex optimization.
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