2.4 kbit/s CWI speech coding algorithm based on Haar wavelet lifting

Jing Wang; Sheng Hui Zhao; Jing Ming Kuang

2.4 kbit/s CWI speech coding algorithm based on Haar wavelet lifting

Jing Wang^*, Sheng Hui Zhao, Jing Ming Kuang

^*Corresponding author for this work

School of Information and Electronics

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Presents a 2.4 kbit/s characteristic waveform interpolation (CWI) speech coding algorithm based on Haar wavelet lifting. CWI amplitude spectrum obtained from discrete time Fourier series (DTFS) is firstly converted to discrete cosine transform (DCT) coefficients, which are then decomposed and reconstructed by Haar wavelet lifting. Voiced degree is decided by the mean value of phase spectrum distances and pitch cycle prediction. It is used to select suitable phase model and the selective quantization of DCT coefficients. Subjective A-B listening test showed that the quality of the proposed speech coder is better than that of the traditional 3.8 kbit/s CWI coder. The problem of long-delay CW decomposition and reconstruction with traditional wavelet transform is also solved by the Haar wavelet lifting scheme.

Original language	English
Pages (from-to)	609-613
Number of pages	5
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	28
Issue number	7
Publication status	Published - Jul 2008

Keywords

Characteristic waveform interpolation (CWI)
Discrete cosine transform (DCT)
Speech coding
Voiced degree
Wavelet lifting

Cite this

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title = "2.4 kbit/s CWI speech coding algorithm based on Haar wavelet lifting",

abstract = "Presents a 2.4 kbit/s characteristic waveform interpolation (CWI) speech coding algorithm based on Haar wavelet lifting. CWI amplitude spectrum obtained from discrete time Fourier series (DTFS) is firstly converted to discrete cosine transform (DCT) coefficients, which are then decomposed and reconstructed by Haar wavelet lifting. Voiced degree is decided by the mean value of phase spectrum distances and pitch cycle prediction. It is used to select suitable phase model and the selective quantization of DCT coefficients. Subjective A-B listening test showed that the quality of the proposed speech coder is better than that of the traditional 3.8 kbit/s CWI coder. The problem of long-delay CW decomposition and reconstruction with traditional wavelet transform is also solved by the Haar wavelet lifting scheme.",

keywords = "Characteristic waveform interpolation (CWI), Discrete cosine transform (DCT), Speech coding, Voiced degree, Wavelet lifting",

author = "Jing Wang and Zhao, {Sheng Hui} and Kuang, {Jing Ming}",

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TY - JOUR

T1 - 2.4 kbit/s CWI speech coding algorithm based on Haar wavelet lifting

AU - Wang, Jing

AU - Zhao, Sheng Hui

AU - Kuang, Jing Ming

PY - 2008/7

Y1 - 2008/7

N2 - Presents a 2.4 kbit/s characteristic waveform interpolation (CWI) speech coding algorithm based on Haar wavelet lifting. CWI amplitude spectrum obtained from discrete time Fourier series (DTFS) is firstly converted to discrete cosine transform (DCT) coefficients, which are then decomposed and reconstructed by Haar wavelet lifting. Voiced degree is decided by the mean value of phase spectrum distances and pitch cycle prediction. It is used to select suitable phase model and the selective quantization of DCT coefficients. Subjective A-B listening test showed that the quality of the proposed speech coder is better than that of the traditional 3.8 kbit/s CWI coder. The problem of long-delay CW decomposition and reconstruction with traditional wavelet transform is also solved by the Haar wavelet lifting scheme.

AB - Presents a 2.4 kbit/s characteristic waveform interpolation (CWI) speech coding algorithm based on Haar wavelet lifting. CWI amplitude spectrum obtained from discrete time Fourier series (DTFS) is firstly converted to discrete cosine transform (DCT) coefficients, which are then decomposed and reconstructed by Haar wavelet lifting. Voiced degree is decided by the mean value of phase spectrum distances and pitch cycle prediction. It is used to select suitable phase model and the selective quantization of DCT coefficients. Subjective A-B listening test showed that the quality of the proposed speech coder is better than that of the traditional 3.8 kbit/s CWI coder. The problem of long-delay CW decomposition and reconstruction with traditional wavelet transform is also solved by the Haar wavelet lifting scheme.

KW - Characteristic waveform interpolation (CWI)

KW - Discrete cosine transform (DCT)

KW - Speech coding

KW - Voiced degree

KW - Wavelet lifting

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JO - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

JF - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

IS - 7

ER -

2.4 kbit/s CWI speech coding algorithm based on Haar wavelet lifting

Abstract

Keywords

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