Robust fault estimation observer in the finite frequency domain for descriptor systems

Zhenhua Wang; Peng Shi; Cheng Chew Lim

doi:10.1080/00207179.2017.1403048

Robust fault estimation observer in the finite frequency domain for descriptor systems

Zhenhua Wang^*
, Peng Shi
, Cheng Chew Lim

^*Corresponding author for this work

School of Astronautics, Harbin Institute of Technology
Adelaide University

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

30 Scopus citations

Abstract

This paper considers robust fault estimation in the finite frequency domain for linear continuous-time descriptor systems. Based on state augmentation, we propose a fault estimation observer with a non-singular structure. To attenuate the effect of unknown disturbance and fault variation on fault estimation, a fault estimation observer is designed in the finite frequency domain using H _∞ optimisation technique. With the design conditions formulated as a set of linear matrix inequalities, the presented fault estimation observer can be efficiently designed. The applicability of the proposed method is verified by numerical simulations of a multi-machine infinite bus system.

Original language	English
Pages (from-to)	1590-1599
Number of pages	10
Journal	International Journal of Control
Volume	92
Issue number	7
DOIs	https://doi.org/10.1080/00207179.2017.1403048
State	Published - 3 Jul 2019
Externally published	Yes

Keywords

Descriptor system
fault estimation observer
finite frequency domain
linear matrix inequalities

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10.1080/00207179.2017.1403048

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abstract = "This paper considers robust fault estimation in the finite frequency domain for linear continuous-time descriptor systems. Based on state augmentation, we propose a fault estimation observer with a non-singular structure. To attenuate the effect of unknown disturbance and fault variation on fault estimation, a fault estimation observer is designed in the finite frequency domain using H ∞ optimisation technique. With the design conditions formulated as a set of linear matrix inequalities, the presented fault estimation observer can be efficiently designed. The applicability of the proposed method is verified by numerical simulations of a multi-machine infinite bus system.",

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AU - Lim, Cheng Chew

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N2 - This paper considers robust fault estimation in the finite frequency domain for linear continuous-time descriptor systems. Based on state augmentation, we propose a fault estimation observer with a non-singular structure. To attenuate the effect of unknown disturbance and fault variation on fault estimation, a fault estimation observer is designed in the finite frequency domain using H ∞ optimisation technique. With the design conditions formulated as a set of linear matrix inequalities, the presented fault estimation observer can be efficiently designed. The applicability of the proposed method is verified by numerical simulations of a multi-machine infinite bus system.

AB - This paper considers robust fault estimation in the finite frequency domain for linear continuous-time descriptor systems. Based on state augmentation, we propose a fault estimation observer with a non-singular structure. To attenuate the effect of unknown disturbance and fault variation on fault estimation, a fault estimation observer is designed in the finite frequency domain using H ∞ optimisation technique. With the design conditions formulated as a set of linear matrix inequalities, the presented fault estimation observer can be efficiently designed. The applicability of the proposed method is verified by numerical simulations of a multi-machine infinite bus system.

KW - Descriptor system

KW - fault estimation observer

KW - finite frequency domain

KW - linear matrix inequalities

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ER -

Robust fault estimation observer in the finite frequency domain for descriptor systems

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Keywords

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