Title :
Maximum Phase Modeling for Sparse Linear Prediction of Speech
Author_Institution :
TCTS Lab., Univ. of Mons, Mons, Belgium
Abstract :
Linear prediction (LP) is an ubiquitous analysis method in speech processing. Various studies have focused on sparse LP algorithms by introducing sparsity constraints into the LP framework. Sparse LP has been shown to be effective in several issues related to speech modeling and coding. However, all existing approaches assume the speech signal to be minimum-phase. Because speech is known to be mixed-phase, the resulting residual signal contains a persistent maximum-phase component. The aim of this paper is to propose a novel technique which incorporates a modeling of the maximum-phase contribution of speech, and can be applied to any filter representation. The proposed method is shown to significantly increase the sparsity of the LP residual signal and to be effective in two illustrative applications: speech polarity detection and excitation modeling.
Keywords :
filtering theory; speech synthesis; LP algorithms; excitation modeling; filter representation; maximum phase modeling; maximum-phase component; maximum-phase contribution; residual signal; sparsity constraints; speech coding; speech modeling; speech polarity detection; speech processing; speech signal; speech sparse linear prediction; ubiquitous analysis; Analytical models; Estimation; Indexes; Measurement; Predictive models; Speech; Speech processing; Linear prediction; maximum phase; residual excitation; sparsity; speech processing;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2013.2296944
