A modified adaptive weight-constrained FxLMS algorithm for feedforward active noise control systems

The weight-constrained filtered-x least mean square (CFxLMS) algorithm with a fixed parameter shows slow convergence speed and weak noise reduction performance under certain circumstances. In order to solve this problem, a generalized modified adaptive CFxLMS (GMACFxLMS) algorithm is proposed to con...

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Bibliographic Details
Published in:Applied acoustics Vol. 164; p. 107227
Main Authors: Meng, Hao, Chen, Shuming
Format: Journal Article
Language:English
Published: Elsevier Ltd 01.07.2020
Subjects:
Active noise control
Adaptive weight-constrained parameter
FxLMS
Impulsive noise
Impulsive noise
FxLMS
Adaptive weight-constrained parameter
Active noise control
ISSN:0003-682X, 1872-910X
Online Access:Get full text
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Summary:The weight-constrained filtered-x least mean square (CFxLMS) algorithm with a fixed parameter shows slow convergence speed and weak noise reduction performance under certain circumstances. In order to solve this problem, a generalized modified adaptive CFxLMS (GMACFxLMS) algorithm is proposed to construct an adaptive weight-constrained parameter for the active noise control (ANC) systems. The GMACFXLMS algorithm is developed by using mixed operation of the Euclidean Norm of residual error en and input noise signal Xn. Different noise reduction effect will be achieved by choosing different coefficients of the Euclidean Norm of en and Xn. Especially, it can be utilized to deal with the ANC under impulse noise with symmetric α-stable (SαS) distribution environments. To further improve the performance of the GMACFxLMS algorithm, specifically for high impulse noise, we present an enhanced GMACFxLMS algorithm (EGMACFxLMS) with amplitude constraint of en and Xn. Simulation results demonstrate that the proposed algorithms achieve faster convergence rate and better noise reduction performance compared with other investigated algorithms. Moreover, the EGMACFxLMS algorithm exhibits the best noise reduction performance in high impulse noise input.
ISSN:0003-682X
1872-910X
DOI:10.1016/j.apacoust.2020.107227