Wave-Domain Approach for Cancelling Noise Entering Open Windows

Conference paper (2022)

Authors

Daan Ratering Student
W.B. Kleijn Signal Processing Systems - EEMCS , Victoria University of Wellington
J. Gonzalez Silva Team Riccardo Ferrari - Mechanical, Maritime and Materials Engineering
Riccardo M.G. Ferrari Team Riccardo Ferrari - Mechanical, Maritime and Materials Engineering
Research Group
Signal Processing Systems (EEMCS) (TU Delft)
Copyright: © 2022 Daan Ratering, W.B. Kleijn, J. Gonzalez Silva, Riccardo M.G. Ferrari
DOI
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https://doi.org/10.1109/ICASSP43922.2022.9746829
Active noise control Aperture Wave-domain algorithm Open window Multiple-error least mean squares algorithm Algorithmic delay compensation
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Published Date

2022

Language

English

Reuse Rights

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Faculty

Electrical Engineering, Mathematics and Computer Science

Department

Microelectronics

Research Group

Signal Processing Systems

Abstract

Active control of noise propagating through apertures is commonly realized with closed-loop LMS algorithms. However, these algorithms require a large number of error microphones and provide only local attenuation. Slow convergence and high computational effort are additional disadvantages. We propose a wave-domain approach that converges instantaneously, operates with low computational effort and does not require error microphones. It inherently controls sound in all directions in the far-field. The soundfield from the aperture is matched in a least squares sense with the generated soundfield from the loudspeaker array using orthonormal basis functions. Compensation for algorithmic delay, induced by blockwise processing, can be based on microphone placement or signal prediction, at the cost of a loss in attenuation performance. Our simulation results indicate that wave-domain processing has the potential to outperform LMS-based methods in practical active noise control for apertures.