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Developing an IIR Robust Adaptive Algorithm in the Modified Filtered-x RLS Form for Active Noise and Vibration Control Systems

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Developing an IIR Robust Adaptive Algorithm in the Modified Filtered-x RLS Form for Active Noise and Vibration Control Systems. / Montazeri, Allahyar; Reger, Johann.
Decision and Control and European Control Conference (CDC-ECC), 2011 50th IEEE Conference on. New York: IEEE, 2011. p. 7994-7999.

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

Harvard

Montazeri, A & Reger, J 2011, Developing an IIR Robust Adaptive Algorithm in the Modified Filtered-x RLS Form for Active Noise and Vibration Control Systems. in Decision and Control and European Control Conference (CDC-ECC), 2011 50th IEEE Conference on. IEEE, New York, pp. 7994-7999, 50th IEEE Conference of Decision and Control (CDC)/European Control Conference (ECC), Orlando, 12/12/11. https://doi.org/10.1109/CDC.2011.6161126

APA

Montazeri, A., & Reger, J. (2011). Developing an IIR Robust Adaptive Algorithm in the Modified Filtered-x RLS Form for Active Noise and Vibration Control Systems. In Decision and Control and European Control Conference (CDC-ECC), 2011 50th IEEE Conference on (pp. 7994-7999). IEEE. https://doi.org/10.1109/CDC.2011.6161126

Vancouver

Montazeri A, Reger J. Developing an IIR Robust Adaptive Algorithm in the Modified Filtered-x RLS Form for Active Noise and Vibration Control Systems. In Decision and Control and European Control Conference (CDC-ECC), 2011 50th IEEE Conference on. New York: IEEE. 2011. p. 7994-7999 doi: 10.1109/CDC.2011.6161126

Author

Montazeri, Allahyar ; Reger, Johann. / Developing an IIR Robust Adaptive Algorithm in the Modified Filtered-x RLS Form for Active Noise and Vibration Control Systems. Decision and Control and European Control Conference (CDC-ECC), 2011 50th IEEE Conference on. New York : IEEE, 2011. pp. 7994-7999

Bibtex

@inproceedings{907a76502f594dd7aa39f599ab8a35fc,
title = "Developing an IIR Robust Adaptive Algorithm in the Modified Filtered-x RLS Form for Active Noise and Vibration Control Systems",
abstract = "In this paper, a robust adaptive algorithm for active noise and vibration control applications is proposed and the robust stability of the algorithm is analyzed using a combination of the small gain theorem and Popov's hyper-stability theorem. The algorithm is developed based on the so-called Filtered-x RLS algorithm in the modified form. In design and analysis of the algorithm, it is assumed that the estimated model of the secondary path is associated with a set of uncertainties of additive structure; and sufficient conditions for stability of the algorithm are derived. In fact, by introducing a stabilizing filter, the aim is to design this filter in a way that the achieved sufficient conditions for robust stability are satisfied. The employed method is to transform the proposed control structure to an equivalent output error identification problem, and then formulate the governing adaptive algorithm in a way that is representable as a feedback control problem. In view of this approach, sufficient conditions for robust stability of the adaptive algorithm will be equivalent to find the conditions for the stability of the established feedback control system. The technique applied here to this end is established on the energy conservation relation that is valid for the general data models in adaptive filters.",
keywords = "LMS ALGORITHM, ERROR, FEEDBACK ANALYSIS",
author = "Allahyar Montazeri and Johann Reger",
year = "2011",
doi = "10.1109/CDC.2011.6161126",
language = "English",
isbn = "978-1-61284-800-6",
pages = "7994--7999",
booktitle = "Decision and Control and European Control Conference (CDC-ECC), 2011 50th IEEE Conference on",
publisher = "IEEE",
note = "50th IEEE Conference of Decision and Control (CDC)/European Control Conference (ECC) ; Conference date: 12-12-2011 Through 15-12-2011",

}

RIS

TY - GEN

T1 - Developing an IIR Robust Adaptive Algorithm in the Modified Filtered-x RLS Form for Active Noise and Vibration Control Systems

AU - Montazeri, Allahyar

AU - Reger, Johann

PY - 2011

Y1 - 2011

N2 - In this paper, a robust adaptive algorithm for active noise and vibration control applications is proposed and the robust stability of the algorithm is analyzed using a combination of the small gain theorem and Popov's hyper-stability theorem. The algorithm is developed based on the so-called Filtered-x RLS algorithm in the modified form. In design and analysis of the algorithm, it is assumed that the estimated model of the secondary path is associated with a set of uncertainties of additive structure; and sufficient conditions for stability of the algorithm are derived. In fact, by introducing a stabilizing filter, the aim is to design this filter in a way that the achieved sufficient conditions for robust stability are satisfied. The employed method is to transform the proposed control structure to an equivalent output error identification problem, and then formulate the governing adaptive algorithm in a way that is representable as a feedback control problem. In view of this approach, sufficient conditions for robust stability of the adaptive algorithm will be equivalent to find the conditions for the stability of the established feedback control system. The technique applied here to this end is established on the energy conservation relation that is valid for the general data models in adaptive filters.

AB - In this paper, a robust adaptive algorithm for active noise and vibration control applications is proposed and the robust stability of the algorithm is analyzed using a combination of the small gain theorem and Popov's hyper-stability theorem. The algorithm is developed based on the so-called Filtered-x RLS algorithm in the modified form. In design and analysis of the algorithm, it is assumed that the estimated model of the secondary path is associated with a set of uncertainties of additive structure; and sufficient conditions for stability of the algorithm are derived. In fact, by introducing a stabilizing filter, the aim is to design this filter in a way that the achieved sufficient conditions for robust stability are satisfied. The employed method is to transform the proposed control structure to an equivalent output error identification problem, and then formulate the governing adaptive algorithm in a way that is representable as a feedback control problem. In view of this approach, sufficient conditions for robust stability of the adaptive algorithm will be equivalent to find the conditions for the stability of the established feedback control system. The technique applied here to this end is established on the energy conservation relation that is valid for the general data models in adaptive filters.

KW - LMS ALGORITHM

KW - ERROR

KW - FEEDBACK ANALYSIS

U2 - 10.1109/CDC.2011.6161126

DO - 10.1109/CDC.2011.6161126

M3 - Conference contribution/Paper

SN - 978-1-61284-800-6

SP - 7994

EP - 7999

BT - Decision and Control and European Control Conference (CDC-ECC), 2011 50th IEEE Conference on

PB - IEEE

CY - New York

T2 - 50th IEEE Conference of Decision and Control (CDC)/European Control Conference (ECC)

Y2 - 12 December 2011 through 15 December 2011

ER -