New insight into reachable set estimation for uncertain singular time-delay systems

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摘要

This paper investigates the problem of reachable set estimation for a class of uncertain singular systems with time-varying delays from a new point of view. Our consideration is centered on the design of a proportional-derivative state feedback controller (PDSFC) such that the considered singular system is robustly normalizable and all the states of the closed-loop system can be contained by a bounded set under zero initial conditions. First, a nominal singular time-delay system is considered and sufficient conditions are obtained in terms of matrix inequalities for the existence of a PDSFC and an ellipsoid. In this case, the considered system is guaranteed to be normalizable and the reachable set of the closed-loop systems is contained by the ellipsoid. Then, the result is extended to the case of singular time-delay systems with polytopic uncertainties and relaxed conditions are derived by introducing some weighting matrix variables. Furthermore, based on the obtained results, the reachable set of the considered closed-loop singular system can be contained in a prescribed ellipsoid. Finally, the effectiveness of our results are demonstrated by two numerical examples.

论文关键词:Singular systems,Time-varying delays,Polytopic uncertainties,PDSFCs

论文评审过程:Received 7 July 2017, Revised 25 September 2017, Accepted 15 October 2017, Available online 6 November 2017, Version of Record 6 November 2017.

论文官网地址:https://doi.org/10.1016/j.amc.2017.10.035