On design of robust fault detection filter in finite-frequency domain with regional pole assignment

Sunjie Zhang; Zidong Wang; Derui Ding; Huisheng Shu; Tasawar Hayat; Abdullah M. Dobaie

doi:10.1109/TCSII.2014.2387684

On design of robust fault detection filter in finite-frequency domain with regional pole assignment

Sunjie Zhang
, Zidong Wang
, Derui Ding
, Huisheng Shu
, Tasawar Hayat
, Abdullah M. Dobaie

Donghua University
Brunel University London
Faculty of Engineering, King Abdulaziz University
Quaid-I-Azam University
King Abdulaziz University

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

51 Scopus citations

Abstract

This brief is concerned with the fault detection (FD) filter design problem for an uncertain linear discrete-time system in the finite-frequency domain with regional pole assignment. An optimized FD filter is designed such that: 1) the FD dynamics is quadratically D-stable; 2) the effect from the exogenous disturbance on the residual is attenuated with respect to a minimized H_∞-norm; and 3) the sensitivity of the residual to the fault is enhanced by means of a maximized H_--norm. With the aid of the generalized Kalman-Yakubovich-Popov lemma, the mixed H_--/H_∞ performance and the D-stability requirement are guaranteed by solving a convex optimization problem. An iterative algorithm for designing the desired FD filter is proposed by evaluating the threshold on the generated residual function. A simulation result is exploited to illustrate the effectiveness of the proposed design technique.

Original language	English
Article number	7001207
Pages (from-to)	382-386
Number of pages	5
Journal	IEEE Transactions on Circuits and Systems II: Express Briefs
Volume	62
Issue number	4
DOIs	https://doi.org/10.1109/TCSII.2014.2387684
State	Published - 1 Apr 2015
Externally published	Yes

Keywords

Fault detection filter
GKYP lemma
finite frequency domain
parameter uncertainties
regional pole assignment

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10.1109/TCSII.2014.2387684

Cite this

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title = "On design of robust fault detection filter in finite-frequency domain with regional pole assignment",

abstract = "This brief is concerned with the fault detection (FD) filter design problem for an uncertain linear discrete-time system in the finite-frequency domain with regional pole assignment. An optimized FD filter is designed such that: 1) the FD dynamics is quadratically D-stable; 2) the effect from the exogenous disturbance on the residual is attenuated with respect to a minimized H∞-norm; and 3) the sensitivity of the residual to the fault is enhanced by means of a maximized H--norm. With the aid of the generalized Kalman-Yakubovich-Popov lemma, the mixed H--/H∞ performance and the D-stability requirement are guaranteed by solving a convex optimization problem. An iterative algorithm for designing the desired FD filter is proposed by evaluating the threshold on the generated residual function. A simulation result is exploited to illustrate the effectiveness of the proposed design technique.",

keywords = "Fault detection filter, GKYP lemma, finite frequency domain, parameter uncertainties, regional pole assignment",

author = "Sunjie Zhang and Zidong Wang and Derui Ding and Huisheng Shu and Tasawar Hayat and Dobaie, \{Abdullah M.\}",

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AU - Hayat, Tasawar

AU - Dobaie, Abdullah M.

PY - 2015/4/1

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N2 - This brief is concerned with the fault detection (FD) filter design problem for an uncertain linear discrete-time system in the finite-frequency domain with regional pole assignment. An optimized FD filter is designed such that: 1) the FD dynamics is quadratically D-stable; 2) the effect from the exogenous disturbance on the residual is attenuated with respect to a minimized H∞-norm; and 3) the sensitivity of the residual to the fault is enhanced by means of a maximized H--norm. With the aid of the generalized Kalman-Yakubovich-Popov lemma, the mixed H--/H∞ performance and the D-stability requirement are guaranteed by solving a convex optimization problem. An iterative algorithm for designing the desired FD filter is proposed by evaluating the threshold on the generated residual function. A simulation result is exploited to illustrate the effectiveness of the proposed design technique.

AB - This brief is concerned with the fault detection (FD) filter design problem for an uncertain linear discrete-time system in the finite-frequency domain with regional pole assignment. An optimized FD filter is designed such that: 1) the FD dynamics is quadratically D-stable; 2) the effect from the exogenous disturbance on the residual is attenuated with respect to a minimized H∞-norm; and 3) the sensitivity of the residual to the fault is enhanced by means of a maximized H--norm. With the aid of the generalized Kalman-Yakubovich-Popov lemma, the mixed H--/H∞ performance and the D-stability requirement are guaranteed by solving a convex optimization problem. An iterative algorithm for designing the desired FD filter is proposed by evaluating the threshold on the generated residual function. A simulation result is exploited to illustrate the effectiveness of the proposed design technique.

KW - Fault detection filter

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KW - parameter uncertainties

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On design of robust fault detection filter in finite-frequency domain with regional pole assignment

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Keywords

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