A new waveform interpolation coding scheme based on pitch synchronous wavelet transform decomposition

Author

Burnett, Ian S. ; Chicharo, J.F.

Volume

8

Issue

3

fYear

2000

fDate

5/1/2000 12:00:00 AM

Firstpage

345

Lastpage

348

Abstract

This correspondence uses a pitch synchronous wavelet transform (PSWT) as an alternative characteristic waveform decomposition method for the waveform interpolation (WI) paradigm. The proposed method has the benefit of providing additional scalability in quantization than the existing WI decomposition to meet desired quality requirements. The PSWT is implemented as a quadrature mirror filter bank and decomposes the characteristic waveform surface into a series of reduced time resolution surfaces. Efficient quantization of these surfaces is achieved by exploiting their perceptual importance and inherent transmission rate requirements. The multiresolution representation has the additional benefit of more flexible parameter quantization, allowing a more accurate description of perceptually important scales, especially at higher coding rates. The proposed PSWT-WI coder is very well suited to high quality speech storage applications

Keywords

interpolation; quadrature mirror filters; quantisation (signal); signal representation; signal resolution; speech coding; transform coding; wavelet transforms; high quality speech storage applications; multiresolution representation; perceptually important scales; pitch synchronous wavelet transform; quadrature mirror filter bank; quantization; scalability; time resolution surfaces; waveform decomposition method; waveform interpolation coding scheme; Australia; Data mining; Filter bank; Interpolation; Quantization; Scalability; Speech analysis; Surface waves; Wavelet transforms; Working environment noise;

fLanguage

English

Journal_Title

Speech and Audio Processing, IEEE Transactions on

Publisher

ieee

ISSN

1063-6676

Type

jour

DOI

10.1109/89.841216

Filename

841216