A class of sparseness-controlled algorithms for echo cancellation

Pradeep Loganathan; Andy W.H. Khong; Patrick A. Naylor

doi:10.1109/TASL.2009.2025903

A class of sparseness-controlled algorithms for echo cancellation

Pradeep Loganathan^*, Andy W.H. Khong, Patrick A. Naylor

^*Corresponding author for this work

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

78 Citations (Scopus)

Abstract

In the context of acoustic echo cancellation (AEC), it is shown that the level of sparseness in acoustic impulse responses can vary greatly in a mobile environment. When the response is strongly sparse, convergence of conventional approaches is poor. Drawing on techniques originally developed for network echo cancellation (NEC), we propose a class of AEC algorithms that can not only work well in both sparse and dispersive circumstances, but also adapt dynamically to the level of sparseness using a new sparseness-controlled approach. Simulation results, using white Gaussian noise (WGN) and speech input signals, show improved performance over existing methods. The proposed algorithms achieve these improvement with only a modest increase in computational complexity.

Original language	English
Article number	5230333
Pages (from-to)	1591-1601
Number of pages	11
Journal	IEEE Transactions on Audio, Speech and Language Processing
Volume	17
Issue number	8
DOIs	https://doi.org/10.1109/TASL.2009.2025903
Publication status	Published - Nov 2009
Externally published	Yes

ASJC Scopus Subject Areas

Acoustics and Ultrasonics
Electrical and Electronic Engineering

Keywords

Acoustic ECHO cancellation (AEC)
Adaptive algorithms
Network ECHO cancellation (NEC)
Sparse impulse responses

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10.1109/TASL.2009.2025903

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AU - Khong, Andy W.H.

AU - Naylor, Patrick A.

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N2 - In the context of acoustic echo cancellation (AEC), it is shown that the level of sparseness in acoustic impulse responses can vary greatly in a mobile environment. When the response is strongly sparse, convergence of conventional approaches is poor. Drawing on techniques originally developed for network echo cancellation (NEC), we propose a class of AEC algorithms that can not only work well in both sparse and dispersive circumstances, but also adapt dynamically to the level of sparseness using a new sparseness-controlled approach. Simulation results, using white Gaussian noise (WGN) and speech input signals, show improved performance over existing methods. The proposed algorithms achieve these improvement with only a modest increase in computational complexity.

AB - In the context of acoustic echo cancellation (AEC), it is shown that the level of sparseness in acoustic impulse responses can vary greatly in a mobile environment. When the response is strongly sparse, convergence of conventional approaches is poor. Drawing on techniques originally developed for network echo cancellation (NEC), we propose a class of AEC algorithms that can not only work well in both sparse and dispersive circumstances, but also adapt dynamically to the level of sparseness using a new sparseness-controlled approach. Simulation results, using white Gaussian noise (WGN) and speech input signals, show improved performance over existing methods. The proposed algorithms achieve these improvement with only a modest increase in computational complexity.

KW - Acoustic ECHO cancellation (AEC)

KW - Adaptive algorithms

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KW - Sparse impulse responses

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A class of sparseness-controlled algorithms for echo cancellation

Abstract

ASJC Scopus Subject Areas

Keywords

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