Robust delay-dependent H∞ filtering for a class of LPV state-delayed systems

H. R. Karimi; B. Lohmann; C. Buskens

doi:10.1109/CACSD-CCA-ISIC.2006.4776856

Robust delay-dependent H_∞ filtering for a class of LPV state-delayed systems

H. R. Karimi, B. Lohmann, C. Buskens

Chair of Automatic Control

Research output: Contribution to conference › Paper › peer-review

3 Scopus citations

Abstract

This paper deals with the robust delay-dependent H_∞ filtering problem for a class of LPV systems with multiple constant time-delays in the state vector. It is shown that, by using the Hamiltonian-Jacoby-Isaac (HJI) function and the polynomially parameter-dependent quadratic functions and a suitable change of variables, the required sufficient conditions with high precision areestablished in terms of parameter-independent linear matrix inequalities (LMIs) for the existence of the desired H_∞ filters. However, the explicit expression of the robust delay-dependent H _∞ filters is derived to satisfy both asymptotic stability and H_∞ performance. A numerical example is provided to demonstrate the validity of the proposed design approach.

Original language	English
Pages	1457-1462
Number of pages	6
DOIs	https://doi.org/10.1109/CACSD-CCA-ISIC.2006.4776856
State	Published - 2006
Event	2006 IEEE International Conference on Control Applications, CCA 2006 - Munich, Germany Duration: 4 Oct 2006 → 6 Oct 2006

Conference

Conference	2006 IEEE International Conference on Control Applications, CCA 2006
Country/Territory	Germany
City	Munich
Period	4/10/06 → 6/10/06

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10.1109/CACSD-CCA-ISIC.2006.4776856

Cite this

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abstract = "This paper deals with the robust delay-dependent H∞ filtering problem for a class of LPV systems with multiple constant time-delays in the state vector. It is shown that, by using the Hamiltonian-Jacoby-Isaac (HJI) function and the polynomially parameter-dependent quadratic functions and a suitable change of variables, the required sufficient conditions with high precision areestablished in terms of parameter-independent linear matrix inequalities (LMIs) for the existence of the desired H∞ filters. However, the explicit expression of the robust delay-dependent H ∞ filters is derived to satisfy both asymptotic stability and H∞ performance. A numerical example is provided to demonstrate the validity of the proposed design approach.",

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doi = "10.1109/CACSD-CCA-ISIC.2006.4776856",

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AU - Karimi, H. R.

AU - Lohmann, B.

AU - Buskens, C.

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N2 - This paper deals with the robust delay-dependent H∞ filtering problem for a class of LPV systems with multiple constant time-delays in the state vector. It is shown that, by using the Hamiltonian-Jacoby-Isaac (HJI) function and the polynomially parameter-dependent quadratic functions and a suitable change of variables, the required sufficient conditions with high precision areestablished in terms of parameter-independent linear matrix inequalities (LMIs) for the existence of the desired H∞ filters. However, the explicit expression of the robust delay-dependent H ∞ filters is derived to satisfy both asymptotic stability and H∞ performance. A numerical example is provided to demonstrate the validity of the proposed design approach.

AB - This paper deals with the robust delay-dependent H∞ filtering problem for a class of LPV systems with multiple constant time-delays in the state vector. It is shown that, by using the Hamiltonian-Jacoby-Isaac (HJI) function and the polynomially parameter-dependent quadratic functions and a suitable change of variables, the required sufficient conditions with high precision areestablished in terms of parameter-independent linear matrix inequalities (LMIs) for the existence of the desired H∞ filters. However, the explicit expression of the robust delay-dependent H ∞ filters is derived to satisfy both asymptotic stability and H∞ performance. A numerical example is provided to demonstrate the validity of the proposed design approach.

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T2 - 2006 IEEE International Conference on Control Applications, CCA 2006

Y2 - 4 October 2006 through 6 October 2006

ER -

Robust delay-dependent H_∞ filtering for a class of LPV state-delayed systems

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