Blind Separation of Speech Signals Based on Wavelet Transform and Independent Component Analysis 被引量：4

Blind Separation of Speech Signals Based on Wavelet Transform and Independent Component Analysis

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摘要 Speech signals in frequency domain were separated based on discrete wavelet transform (DWT) and independent component analysis (ICA). First, mixed speech signals were decomposed into different frequency domains by DWT and the subbands of speech signals were separated using ICA in each wavelet domain; then, the permutation and scaling problems of frequency domain blind source separation (BSS) were solved by utilizing the correlation between adjacent bins in speech signals; at last, source signals were reconstructed from single branches. Experiments were carried out with 2 sources and 6 microphones using speech signals at sampling rate of 40 kHz. The microphones were aligned with 2 sources in front of them, on the left and right. The separation of one male and one female speeches lasted 2.5 s. It is proved that the new method is better than single ICA method and the signal to noise ratio is improved by 1 dB approximately. Speech signals in frequency domain were separated based on discrete wavelet transform （DWT） and inde- pendent component analysis （ICA）. First, mixed speech signals were decomposed into different frequency domains by DWT and the subbands of speech signals were separated using ICA in each wavelet domain; then, the permutation and scaling problems of frequency domain blind source separation （BSS） were solved by utilizing the correlation between adjacent bins in speech signals; at last, source signals were reconstructed from single branches. Experiments were car- ried out with 2 sources and 6 microphones using speech signals at sampling rate of 40 kHz. The microphones were aligned with 2 sources in front of them, on the left and right. The separation of one male and one female speeches lasted 2.5 s. It is proved that the new method is better than single ICA method and the signal to noise ratio is improved by 1 dB approximately.

作者吴晓何静菁靳世久徐安桃王伟魁

机构地区 School of Precision Instrument and Opto-Electronics Engineering Department of Automotive Engineering

出处《Transactions of Tianjin University》 EI CAS 2010年第2期123-128,共6页 天津大学学报（英文版）

基金 Supported by Tianjin Municipal Science and Technology Commission (No.09JCYBJC02200)

关键词 wavelet transform independent component analysis blind source separation 离散小波变换独立成分分析语音信号分离基 ICA 盲源分离采样速率 DWT

分类号 TN912.3 [电子电信—通信与信息系统]

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参考文献19

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2010年第2期

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Blind Separation of Speech Signals Based on Wavelet Transform and Independent Component Analysis 被引量：4

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