Online Construction of Variable Span Linear Filters Using a Fixed-Point Approach

Haoyuan Cai; Yingke Zhao; Jie Chen; Wei Chen; Maboud Kaloorazi

doi:10.1109/LSP.2021.3056904

Online Construction of Variable Span Linear Filters Using a Fixed-Point Approach

Haoyuan Cai, Yingke Zhao, Jie Chen, Wei Chen, Maboud Kaloorazi

School of Marine Science and Technology

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

2 Scopus citations

Abstract

The variable span linear filters (VSLFs) constitute a unified framework of conventional subspace and linear filtering techniques for noise reduction. The construction of VSLFs, however, relies on the generalized eigendecomposition (GEVD) methods, which are computationally expensive. This in turn stymies the employment of such filters in practical online processing problems. To address this issue, we first propose in this paper a fixed-point iteration technique to extract the generalized eigenvectors. It is based on maximizing the pre-whitened generalized Rayleigh quotient (GRQ). We then integrate this technique with online statistic estimation to construct VSLFs. Our proposed method is computationally efficient and can also harness parallel architectures. To show its effectiveness, we consider a speech enhancement application and compare the results with those of several existing methods.

Original language	English
Article number	9349208
Pages (from-to)	404-408
Number of pages	5
Journal	IEEE Signal Processing Letters
Volume	28
DOIs	https://doi.org/10.1109/LSP.2021.3056904
State	Published - 2021

Keywords

Fixed-point iteration
generalized eigenvectors
noise reduction
variable span linear filters

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10.1109/LSP.2021.3056904

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title = "Online Construction of Variable Span Linear Filters Using a Fixed-Point Approach",

abstract = "The variable span linear filters (VSLFs) constitute a unified framework of conventional subspace and linear filtering techniques for noise reduction. The construction of VSLFs, however, relies on the generalized eigendecomposition (GEVD) methods, which are computationally expensive. This in turn stymies the employment of such filters in practical online processing problems. To address this issue, we first propose in this paper a fixed-point iteration technique to extract the generalized eigenvectors. It is based on maximizing the pre-whitened generalized Rayleigh quotient (GRQ). We then integrate this technique with online statistic estimation to construct VSLFs. Our proposed method is computationally efficient and can also harness parallel architectures. To show its effectiveness, we consider a speech enhancement application and compare the results with those of several existing methods.",

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author = "Haoyuan Cai and Yingke Zhao and Jie Chen and Wei Chen and Maboud Kaloorazi",

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T1 - Online Construction of Variable Span Linear Filters Using a Fixed-Point Approach

AU - Cai, Haoyuan

AU - Zhao, Yingke

AU - Chen, Jie

AU - Chen, Wei

AU - Kaloorazi, Maboud

PY - 2021

Y1 - 2021

N2 - The variable span linear filters (VSLFs) constitute a unified framework of conventional subspace and linear filtering techniques for noise reduction. The construction of VSLFs, however, relies on the generalized eigendecomposition (GEVD) methods, which are computationally expensive. This in turn stymies the employment of such filters in practical online processing problems. To address this issue, we first propose in this paper a fixed-point iteration technique to extract the generalized eigenvectors. It is based on maximizing the pre-whitened generalized Rayleigh quotient (GRQ). We then integrate this technique with online statistic estimation to construct VSLFs. Our proposed method is computationally efficient and can also harness parallel architectures. To show its effectiveness, we consider a speech enhancement application and compare the results with those of several existing methods.

AB - The variable span linear filters (VSLFs) constitute a unified framework of conventional subspace and linear filtering techniques for noise reduction. The construction of VSLFs, however, relies on the generalized eigendecomposition (GEVD) methods, which are computationally expensive. This in turn stymies the employment of such filters in practical online processing problems. To address this issue, we first propose in this paper a fixed-point iteration technique to extract the generalized eigenvectors. It is based on maximizing the pre-whitened generalized Rayleigh quotient (GRQ). We then integrate this technique with online statistic estimation to construct VSLFs. Our proposed method is computationally efficient and can also harness parallel architectures. To show its effectiveness, we consider a speech enhancement application and compare the results with those of several existing methods.

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JO - IEEE Signal Processing Letters

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Online Construction of Variable Span Linear Filters Using a Fixed-Point Approach

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