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Dissipative control of 2-D switched discrete system via dwell-time-dependent approach

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Hua, Dingli, Wang, Weiqun, Yu, Weiren and Yao, Juan (2020) Dissipative control of 2-D switched discrete system via dwell-time-dependent approach. Circuits, Systems, and Signal Processing, 39 (11). pp. 5475-5500. doi:10.1007/s00034-020-01440-8

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Official URL: http://dx.doi.org/10.1007/s00034-020-01440-8

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Abstract

This paper studies the dissipative control problem for two-dimensional (2-D) switched discrete-time linear system represented by Fornasini–Marchesini local state-space (FMLSS) model via dwell-time-dependent Lyapunov function (DTDLF) approach. Consider the definition of (Q, S, R)-α-dissipativity for 2-D switched discrete FMLSS model in triangular region and based on the DTDLF approach, we first give the linear matrix inequality (LMI)-based sufficient condition on asymptotic stability for the 2-D switched discrete FMLSS model and then propose the LMI-based sufficient condition which can guarantee the given 2-D switched system to be asymptotically stable and strictly (Q, S, R)-α-dissipative. Furthermore, the dwell-time-dependent dissipative state-feedback controller is designed, and the LMI-based sufficient condition for designing such controller is proposed. Besides, dwell-time-dependent passive state-feedback controller and dwell-time-dependent H∞ state-feedback controller could be derived as the special cases of dissipative control from the established result. Finally, illustrative examples are depicted to verify the efficiency and superiority of the proposed techniques.

Item Type: Journal Article
Divisions: Faculty of Science > Computer Science
Journal or Publication Title: Circuits, Systems, and Signal Processing
Publisher: Springer
ISSN: 0278-081X
Official Date: November 2020
Dates:
DateEvent
November 2020Published
3 June 2020Available
27 April 2020Accepted
Volume: 39
Number: 11
Page Range: pp. 5475-5500
DOI: 10.1007/s00034-020-01440-8
Status: Peer Reviewed
Publication Status: Published
Access rights to Published version: Restricted or Subscription Access

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