1. Dynamic feedback H∞ control for discrete singular systems with time–varying delays.
- Author
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Chen, Wenbin, Sakthivel, Rathinasamy, Gao, Fang, Kong, Fanchao, and Zhuang, Guangming
- Subjects
- *
DISCRETE systems , *TIME-varying systems , *DECOMPOSITION method , *CLOSED loop systems , *PSYCHOLOGICAL feedback - Abstract
This work carefully revisits the topic of dynamic feedback $ H_{\infty } $ H ∞ control problem for discrete singular systems (DSSs) with time–varying delays. A new state decomposed Lyapunov-Krasovskii functional is presented by a discrete state decomposition method. For the unforced nominal DSSs, delay–dependent sufficient conditions with an $ H_{\infty } $ H ∞ performance index are derived. Based on these conditions, a closed–loop system being regular and causal is developed via a dynamic feedback controller. As a new discrete state decomposition–reorganization method is proposed, the required admissibility conditions are attained. Through the accurate calculation of each decomposition component of the dynamic feedback controller, the desired dynamic feedback controller settings are determined. The numerical findings demonstrate the superiority of our method over earlier approachers, and the results are less conservative. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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