Speech Enhancement

A Signal Subspace Perspective

Nonfiction, Science & Nature, Technology, Acoustics & Sound, Engineering
Cover of the book Speech Enhancement by Jacob Benesty, Jesper Rindom Jensen, Mads Graesboll Christensen, Jingdong Chen, Elsevier Science
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Author: Jacob Benesty, Jesper Rindom Jensen, Mads Graesboll Christensen, Jingdong Chen ISBN: 9780128002537
Publisher: Elsevier Science Publication: January 4, 2014
Imprint: Academic Press Language: English
Author: Jacob Benesty, Jesper Rindom Jensen, Mads Graesboll Christensen, Jingdong Chen
ISBN: 9780128002537
Publisher: Elsevier Science
Publication: January 4, 2014
Imprint: Academic Press
Language: English

Speech enhancement is a classical problem in signal processing, yet still largely unsolved. Two of the conventional approaches for solving this problem are linear filtering, like the classical Wiener filter, and subspace methods. These approaches have traditionally been treated as different classes of methods and have been introduced in somewhat different contexts. Linear filtering methods originate in stochastic processes, while subspace methods have largely been based on developments in numerical linear algebra and matrix approximation theory.

This book bridges the gap between these two classes of methods by showing how the ideas behind subspace methods can be incorporated into traditional linear filtering. In the context of subspace methods, the enhancement problem can then be seen as a classical linear filter design problem. This means that various solutions can more easily be compared and their performance bounded and assessed in terms of noise reduction and speech distortion. The book shows how various filter designs can be obtained in this framework, including the maximum SNR, Wiener, LCMV, and MVDR filters, and how these can be applied in various contexts, like in single-channel and multichannel speech enhancement, and in both the time and frequency domains.

  • First short book treating subspace approaches in a unified way for time and frequency domains, single-channel, multichannel, as well as binaural, speech enhancement
  • Bridges the gap between optimal filtering methods and subspace approaches
  • Includes original presentation of subspace methods from different perspectives
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Speech enhancement is a classical problem in signal processing, yet still largely unsolved. Two of the conventional approaches for solving this problem are linear filtering, like the classical Wiener filter, and subspace methods. These approaches have traditionally been treated as different classes of methods and have been introduced in somewhat different contexts. Linear filtering methods originate in stochastic processes, while subspace methods have largely been based on developments in numerical linear algebra and matrix approximation theory.

This book bridges the gap between these two classes of methods by showing how the ideas behind subspace methods can be incorporated into traditional linear filtering. In the context of subspace methods, the enhancement problem can then be seen as a classical linear filter design problem. This means that various solutions can more easily be compared and their performance bounded and assessed in terms of noise reduction and speech distortion. The book shows how various filter designs can be obtained in this framework, including the maximum SNR, Wiener, LCMV, and MVDR filters, and how these can be applied in various contexts, like in single-channel and multichannel speech enhancement, and in both the time and frequency domains.

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