An iterative observer-based fault estimation for discrete-time T-S fuzzy systems

Yongsheng Ma; Mouquan Shen; Haiping Du; Yuesheng Ren; Guangrui Bian

doi:10.1080/00207721.2020.1746440

An iterative observer-based fault estimation for discrete-time T-S fuzzy systems

Yongsheng Ma, Mouquan Shen, Haiping Du, Yuesheng Ren, Guangrui Bian

COLLEGE OF ELECTRICAL ENGINEERING AND CONTROL SCIENCE

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

10 Scopus citations

Abstract

An improved iterative observer for fault estimation of discrete-time T-S fuzzy systems is discussed in this paper. A discrete mean value convergence lemma is proposed firstly. Based on this lemma, a sequence of iterative observers are constructed to estimate the unknown fault. By choosing a general Lyapunov function, conditions for the resultant augmented system to be asymptotically stable with the required (Formula presented.) performance are built in the framework of linear matrix inequalities. With the established conditions, an iterative algorithm is developed to realise the fault estimation. A numerical example is provided to verify the effectiveness of the proposed method.

Original language	English
Pages (from-to)	1007-1018
Number of pages	12
Journal	International Journal of Systems Science
Volume	51
Issue number	6
DOIs	https://doi.org/10.1080/00207721.2020.1746440
State	Published - 25 Apr 2020

Keywords

Fault estimation
control
linear matrix inequalities
t-S fuzzy system

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10.1080/00207721.2020.1746440

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title = "An iterative observer-based fault estimation for discrete-time T-S fuzzy systems",

abstract = "An improved iterative observer for fault estimation of discrete-time T-S fuzzy systems is discussed in this paper. A discrete mean value convergence lemma is proposed firstly. Based on this lemma, a sequence of iterative observers are constructed to estimate the unknown fault. By choosing a general Lyapunov function, conditions for the resultant augmented system to be asymptotically stable with the required (Formula presented.) performance are built in the framework of linear matrix inequalities. With the established conditions, an iterative algorithm is developed to realise the fault estimation. A numerical example is provided to verify the effectiveness of the proposed method.",

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T1 - An iterative observer-based fault estimation for discrete-time T-S fuzzy systems

AU - Ma, Yongsheng

AU - Shen, Mouquan

AU - Du, Haiping

AU - Ren, Yuesheng

AU - Bian, Guangrui

PY - 2020/4/25

Y1 - 2020/4/25

N2 - An improved iterative observer for fault estimation of discrete-time T-S fuzzy systems is discussed in this paper. A discrete mean value convergence lemma is proposed firstly. Based on this lemma, a sequence of iterative observers are constructed to estimate the unknown fault. By choosing a general Lyapunov function, conditions for the resultant augmented system to be asymptotically stable with the required (Formula presented.) performance are built in the framework of linear matrix inequalities. With the established conditions, an iterative algorithm is developed to realise the fault estimation. A numerical example is provided to verify the effectiveness of the proposed method.

AB - An improved iterative observer for fault estimation of discrete-time T-S fuzzy systems is discussed in this paper. A discrete mean value convergence lemma is proposed firstly. Based on this lemma, a sequence of iterative observers are constructed to estimate the unknown fault. By choosing a general Lyapunov function, conditions for the resultant augmented system to be asymptotically stable with the required (Formula presented.) performance are built in the framework of linear matrix inequalities. With the established conditions, an iterative algorithm is developed to realise the fault estimation. A numerical example is provided to verify the effectiveness of the proposed method.

KW - Fault estimation

KW - control

KW - linear matrix inequalities

KW - t-S fuzzy system

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JO - International Journal of Systems Science

JF - International Journal of Systems Science

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ER -

An iterative observer-based fault estimation for discrete-time T-S fuzzy systems

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