Yun Zou scite author profile

SUMMARYThis paper proposes an improvement to the delay‐dependent stability of discrete systems with time‐varying delays. The approach is based on the observation that the positive definiteness of a chosen Lyapunov–Krasovskii functional does not necessarily require all the involved symmetric matrices to be positive definite, which has been overlooked in the literature. The derived delay‐dependent stability conditions are in terms of linear matrix inequalities. It is theoretically proved that our results are less conservative than the corresponding ones obtained by requiring the positive definiteness of all the symmetric matrices in a chosen Lyapunov–Krasovskii functional. The importance of the present approach is that a great number of delay‐dependent analysis and synthesis results obtained by the aforementioned requirement in the literature can be improved by the present approach without introducing any new decision variables. Copyright © 2013 John Wiley & Sons, Ltd.

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An improved characterization of bounded realness for singular delay systems and its applications

Lam

Zou

2007

Intl J Robust & Nonlinear

125

100

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SUMMARYThis paper is concerned with establishing a delay-dependent bounded real lemma (BRL) for singular systems with a time delay. Without resorting to any bounding techniques for some cross terms and model transformation, a new version of BRL for such systems is proposed, which guarantees a singular system to be regular, impulse free and stable while satisfying a prescribed H 1 performance level for any delays smaller than a given upper bound. Based on this, an H 1 state feedback controller is designed via a linear matrix inequality approach. The BRL, stability as well as H 1 results developed in this paper are less conservative than existing ones in the literature, which is demonstrated by providing some numerical examples.

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Optimal and sub-optimal quarantine and isolation control in SARS epidemics

Yan

Zou

2008

Mathematical and Computer Modelling

128

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This paper discusses the application of optimal and sub-optimal controls to a SEQIJR SARS model via the Pontryagin's Maximum Principle. To this end, two control variables representing the quarantine and isolation strategies are considered in the model. The numerical optimal control laws are implemented in an iterative method, and the sub-optimal solution is computed using a genetic algorithm. The simulation results demonstrate that the maximal applications of quarantining and isolation strategies in the early stage of the epidemic are of very critical impacts in both cases of optimal and sub-optimal control. Otherwise, the control effect will be much worse. This gives a theoretical interpretation to the practical experiences that the early quarantine and isolation strategies are critically important to control the outbreaks of epidemics. Furthermore, our results also show that the proposed suboptimal control can lead to performances close to the optimal control, but with much simpler strategies for long periods of time in practical use.

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Robust Controller Design of Uncertain Discrete Time-Delay Systems With Input Saturation and Disturbances

Feng

Zou

et al. 2012

IEEE Trans. Automat. Contr.

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Yun Zou

Improved stability criterion and its applications in delayed controller design for discrete-time systems

A new result on the delay-dependent stability of discrete systems with time-varying delays

An improved characterization of bounded realness for singular delay systems and its applications

Optimal and sub-optimal quarantine and isolation control in SARS epidemics

Robust Controller Design of Uncertain Discrete Time-Delay Systems With Input Saturation and Disturbances

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