Title :
A Compressed Sensing Approach to Blind Separation of Speech Mixture Based on a Two-Layer Sparsity Model
Author :
Guangzhao Bao ; Zhongfu Ye ; Xu Xu ; Yingyue Zhou
Author_Institution :
Dept. of Electron. Eng. & Inf. Sci., Univ. of Sci. & Technol. of China, Hefei, China
Abstract :
This paper discusses underdetermined blind source separation (BSS) using a compressed sensing (CS) approach, which contains two stages. In the first stage we exploit a modified K-means method to estimate the unknown mixing matrix. The second stage is to separate the sources from the mixed signals using the estimated mixing matrix from the first stage. In the second stage a two-layer sparsity model is used. The two-layer sparsity model assumes that the low frequency components of speech signals are sparse on K-SVD dictionary and the high frequency components are sparse on discrete cosine transformation (DCT) dictionary. This model, taking advantage of two dictionaries, can produce effective separation performance even if the sources are not sparse in time-frequency (TF) domain.
Keywords :
blind source separation; compressed sensing; discrete cosine transforms; speech synthesis; BSS; DCT dictionary; K-SVD dictionary; blind source separation; compressed sensing approach; discrete cosine transformation; mixed signals; mixing matrix; modified K-means method; speech mixture; time-frequency domain; two-layer sparsity model; Compressed sensing; Dictionaries; Discrete cosine transforms; Matching pursuit algorithms; Source separation; Speech; Vectors; Compressed sensing; K-SVD; K-means; monochannel dictionary; multichannel dictionary; two-layer sparsity model; underdetermined blind source separation;
Journal_Title :
Audio, Speech, and Language Processing, IEEE Transactions on
DOI :
10.1109/TASL.2012.2234110
