A sparseness controlled proportionate algorithm for acoustic echo cancellation

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

A sparseness controlled proportionate algorithm for acoustic echo cancellation

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

^*Corresponding author for this work

Research output: Contribution to journal › Conference article › peer-review

13 Citations (Scopus)

Abstract

Sparseness variation in acoustic impulse response arises due to changes in temperature, pressure, acoustic source movements and changes in the acoustic environment. Therefore, the algorithms employed in acoustic echo cancellation have to perform well for both sparse and dispersive unknown systems. The well-known algorithms, normalised least mean square (NLMS) or proportionate NLMS (PNLMS), are limited to perform well either in dispersive or sparse cases, respectively. The proposed sparseness-controlled PNLMS (SC-PNLMS) algorithm inherits the beneficial properties of both PNLMS and NLMS by employing the sparseness measure into the PNLMS algorithm. Simulation results presented show improved performance over the PNLMS algorithm even for dispersive impulse responses. copyright by EURASIP.

Original language	English
Journal	European Signal Processing Conference
Publication status	Published - 2008
Externally published	Yes
Event	16th European Signal Processing Conference, EUSIPCO 2008 - Lausanne, Switzerland Duration: Aug 25 2008 → Aug 29 2008

ASJC Scopus Subject Areas

Signal Processing
Electrical and Electronic Engineering

Cite this

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title = "A sparseness controlled proportionate algorithm for acoustic echo cancellation",

abstract = "Sparseness variation in acoustic impulse response arises due to changes in temperature, pressure, acoustic source movements and changes in the acoustic environment. Therefore, the algorithms employed in acoustic echo cancellation have to perform well for both sparse and dispersive unknown systems. The well-known algorithms, normalised least mean square (NLMS) or proportionate NLMS (PNLMS), are limited to perform well either in dispersive or sparse cases, respectively. The proposed sparseness-controlled PNLMS (SC-PNLMS) algorithm inherits the beneficial properties of both PNLMS and NLMS by employing the sparseness measure into the PNLMS algorithm. Simulation results presented show improved performance over the PNLMS algorithm even for dispersive impulse responses. copyright by EURASIP.",

author = "Pradeep Loganathan and Khong, {Andy W.H.} and Naylor, {Patrick A.}",

year = "2008",

language = "English",

journal = "European Signal Processing Conference",

issn = "2219-5491",

note = "16th European Signal Processing Conference, EUSIPCO 2008 ; Conference date: 25-08-2008 Through 29-08-2008",

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TY - JOUR

T1 - A sparseness controlled proportionate algorithm for acoustic echo cancellation

AU - Loganathan, Pradeep

AU - Khong, Andy W.H.

AU - Naylor, Patrick A.

PY - 2008

Y1 - 2008

N2 - Sparseness variation in acoustic impulse response arises due to changes in temperature, pressure, acoustic source movements and changes in the acoustic environment. Therefore, the algorithms employed in acoustic echo cancellation have to perform well for both sparse and dispersive unknown systems. The well-known algorithms, normalised least mean square (NLMS) or proportionate NLMS (PNLMS), are limited to perform well either in dispersive or sparse cases, respectively. The proposed sparseness-controlled PNLMS (SC-PNLMS) algorithm inherits the beneficial properties of both PNLMS and NLMS by employing the sparseness measure into the PNLMS algorithm. Simulation results presented show improved performance over the PNLMS algorithm even for dispersive impulse responses. copyright by EURASIP.

AB - Sparseness variation in acoustic impulse response arises due to changes in temperature, pressure, acoustic source movements and changes in the acoustic environment. Therefore, the algorithms employed in acoustic echo cancellation have to perform well for both sparse and dispersive unknown systems. The well-known algorithms, normalised least mean square (NLMS) or proportionate NLMS (PNLMS), are limited to perform well either in dispersive or sparse cases, respectively. The proposed sparseness-controlled PNLMS (SC-PNLMS) algorithm inherits the beneficial properties of both PNLMS and NLMS by employing the sparseness measure into the PNLMS algorithm. Simulation results presented show improved performance over the PNLMS algorithm even for dispersive impulse responses. copyright by EURASIP.

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M3 - Conference article

AN - SCOPUS:84863751889

SN - 2219-5491

JO - European Signal Processing Conference

JF - European Signal Processing Conference

T2 - 16th European Signal Processing Conference, EUSIPCO 2008

Y2 - 25 August 2008 through 29 August 2008

ER -

A sparseness controlled proportionate algorithm for acoustic echo cancellation

Abstract

ASJC Scopus Subject Areas

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