Imperfect premise matching controller design for T-S fuzzy systems under network environments

Shaodong Ma; Chen Peng; Jin Zhang; Xiangpeng Xie

doi:10.1016/j.asoc.2016.09.043

Imperfect premise matching controller design for T-S fuzzy systems under network environments

Shaodong Ma, Chen Peng^*, Jin Zhang, Xiangpeng Xie

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

This paper focuses on an imperfect premise matching controller design for T-S fuzzy systems under network environments. Different with the traditional parallel distribution compensation (PDC) method, the same premises between the PDC controller and the T-S fuzzy systems are no longer needed again in the proposed method. Under consideration of the unmatched grades of membership in the networked T-S fuzzy systems, a unified T-S fuzzy model is firstly proposed, in which a networked state-feedback fuzzy controller with communication delays is used to reconstruct the system. Then, based on the constructed model and by use of the Wirtinger-based inequality technique to deal with the cross items, two less conservative stability and stabilization criteria are derived to enhance the design flexibility. Finally, two numerical examples are used to show the effectiveness of proposed method.

Original language	English
Pages (from-to)	805-811
Number of pages	7
Journal	Applied Soft Computing Journal
Volume	52
DOIs	https://doi.org/10.1016/j.asoc.2016.09.043
State	Published - 1 Mar 2017
Externally published	Yes

Keywords

Communication delay
Imperfect premise matching
Networked control
T-S fuzzy systems
Wirtinger-based inequality

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10.1016/j.asoc.2016.09.043

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abstract = "This paper focuses on an imperfect premise matching controller design for T-S fuzzy systems under network environments. Different with the traditional parallel distribution compensation (PDC) method, the same premises between the PDC controller and the T-S fuzzy systems are no longer needed again in the proposed method. Under consideration of the unmatched grades of membership in the networked T-S fuzzy systems, a unified T-S fuzzy model is firstly proposed, in which a networked state-feedback fuzzy controller with communication delays is used to reconstruct the system. Then, based on the constructed model and by use of the Wirtinger-based inequality technique to deal with the cross items, two less conservative stability and stabilization criteria are derived to enhance the design flexibility. Finally, two numerical examples are used to show the effectiveness of proposed method.",

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AB - This paper focuses on an imperfect premise matching controller design for T-S fuzzy systems under network environments. Different with the traditional parallel distribution compensation (PDC) method, the same premises between the PDC controller and the T-S fuzzy systems are no longer needed again in the proposed method. Under consideration of the unmatched grades of membership in the networked T-S fuzzy systems, a unified T-S fuzzy model is firstly proposed, in which a networked state-feedback fuzzy controller with communication delays is used to reconstruct the system. Then, based on the constructed model and by use of the Wirtinger-based inequality technique to deal with the cross items, two less conservative stability and stabilization criteria are derived to enhance the design flexibility. Finally, two numerical examples are used to show the effectiveness of proposed method.

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Imperfect premise matching controller design for T-S fuzzy systems under network environments

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Keywords

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