Speech Enhancement With a GSC-Like Structure Employing Eigenvector-Based Transfer Function Ratios Estimation
Audio, Speech, and Language Processing, IEEE Transactions(2011)
摘要
In this paper, we present a novel blocking matrix and fixed beamformer design for a generalized sidelobe canceler for speech enhancement in a reverberant enclosure. They are based on a new method for estimating the acoustical transfer function ratios in the presence of stationary noise. The estimation method relies on solving a generalized eigenvalue problem in each frequency bin. An adaptive eigenvector tracking utilizing the power iteration method is employed and shown to achieve a high convergence speed. Simulation results demonstrate that the proposed beamformer leads to better noise and interference reduction and reduced speech distortions compared to other blocking matrix designs from the literature.
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关键词
array signal processing,eigenvalues and eigenfunctions,iterative methods,reverberation,speech enhancement,acoustical transfer function ratio,adaptive eigenvector tracking,beamformer design,blocking matrix,eigenvector-based transfer function ratios estimation,generalized sidelobe canceler,interference reduction,power iteration method,reduced speech distortions,reverberant enclosure,speech enhancement,stationary noise,Acoustical transfer function ratios,generalized eigenvalue problem,generalized sidelobe canceler (GSC),microphone array signal processing,speech enhancement
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