Robust equalization of multichannel acoustic systems

In most real-world acoustical scenarios, speech signals captured by distant microphones from a source are reverberated due to multipath propagation, and the reverberation may impair speech intelligibility. Speech dereverberation can be achieved by equalizing the channels from the source to microphon...

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Main Author: Zhang, Wancheng
Other Authors: Naylor, Patrick
Published: Imperial College London 2010
Subjects:
Online Access:http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.519297
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spelling ndltd-bl.uk-oai-ethos.bl.uk-5192972017-08-30T03:18:54ZRobust equalization of multichannel acoustic systemsZhang, WanchengNaylor, Patrick2010In most real-world acoustical scenarios, speech signals captured by distant microphones from a source are reverberated due to multipath propagation, and the reverberation may impair speech intelligibility. Speech dereverberation can be achieved by equalizing the channels from the source to microphones. Equalization systems can be computed using estimates of multichannel acoustic impulse responses. However, the estimates obtained from system identification always include errors; the fact that an equalization system is able to equalize the estimated multichannel acoustic system does not mean that it is able to equalize the true system. The objective of this thesis is to propose and investigate robust equalization methods for multichannel acoustic systems in the presence of system identification errors. Equalization systems can be computed using the multiple-input/output inverse theorem or multichannel least-squares method. However, equalization systems obtained from these methods are very sensitive to system identification errors. A study of the multichannel least-squares method with respect to two classes of characteristic channel zeros is conducted. Accordingly, a relaxed multichannel least- squares method is proposed. Channel shortening in connection with the multiple- input/output inverse theorem and the relaxed multichannel least-squares method is discussed. Two algorithms taking into account the system identification errors are developed. Firstly, an optimally-stopped weighted conjugate gradient algorithm is proposed. A conjugate gradient iterative method is employed to compute the equalization system. The iteration process is stopped optimally with respect to system identification errors. Secondly, a system-identification-error-robust equalization method exploring the use of error models is presented, which incorporates system identification error models in the weighted multichannel least-squares formulation.621.382Imperial College Londonhttp://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.519297http://hdl.handle.net/10044/1/5882Electronic Thesis or Dissertation
collection NDLTD
sources NDLTD
topic 621.382
spellingShingle 621.382
Zhang, Wancheng
Robust equalization of multichannel acoustic systems
description In most real-world acoustical scenarios, speech signals captured by distant microphones from a source are reverberated due to multipath propagation, and the reverberation may impair speech intelligibility. Speech dereverberation can be achieved by equalizing the channels from the source to microphones. Equalization systems can be computed using estimates of multichannel acoustic impulse responses. However, the estimates obtained from system identification always include errors; the fact that an equalization system is able to equalize the estimated multichannel acoustic system does not mean that it is able to equalize the true system. The objective of this thesis is to propose and investigate robust equalization methods for multichannel acoustic systems in the presence of system identification errors. Equalization systems can be computed using the multiple-input/output inverse theorem or multichannel least-squares method. However, equalization systems obtained from these methods are very sensitive to system identification errors. A study of the multichannel least-squares method with respect to two classes of characteristic channel zeros is conducted. Accordingly, a relaxed multichannel least- squares method is proposed. Channel shortening in connection with the multiple- input/output inverse theorem and the relaxed multichannel least-squares method is discussed. Two algorithms taking into account the system identification errors are developed. Firstly, an optimally-stopped weighted conjugate gradient algorithm is proposed. A conjugate gradient iterative method is employed to compute the equalization system. The iteration process is stopped optimally with respect to system identification errors. Secondly, a system-identification-error-robust equalization method exploring the use of error models is presented, which incorporates system identification error models in the weighted multichannel least-squares formulation.
author2 Naylor, Patrick
author_facet Naylor, Patrick
Zhang, Wancheng
author Zhang, Wancheng
author_sort Zhang, Wancheng
title Robust equalization of multichannel acoustic systems
title_short Robust equalization of multichannel acoustic systems
title_full Robust equalization of multichannel acoustic systems
title_fullStr Robust equalization of multichannel acoustic systems
title_full_unstemmed Robust equalization of multichannel acoustic systems
title_sort robust equalization of multichannel acoustic systems
publisher Imperial College London
publishDate 2010
url http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.519297
work_keys_str_mv AT zhangwancheng robustequalizationofmultichannelacousticsystems
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