Design of a robust LSP quantizer for a high-quality 4-kbit/s CELP speech coder

Yusuke Hiwasaki; Kazunori Mano; Kazutoshi Yasunaga; Toshiyuki Morii; Hiroyuki Ehara; Takao Kaneko

Design of a robust LSP quantizer for a high-quality 4-kbit/s CELP speech coder

Yusuke Hiwasaki, Kazunori Mano, Kazutoshi Yasunaga, Toshiyuki Morii, Hiroyuki Ehara, Takao Kaneko

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

Abstract

This paper presents an efficient LSP quantizer implementation for low bit-rate coders. The major feature of the quantizer is that it uses a truncated cepstral distance criterion for the code selection procedure. This approach has generally been considered too computationally costly. We utilized the quantizer with a moving-average predictor, two-stage-split vector quantizer and delayed decision. We have investigated the optimal parameter settings in this case and incorporated the quantizer thus obtained into an ITU-T 4-kbit/s speech coding candidate algorithm with a bit budget of 21 bits. The objective performance is better than that with a conventional weighted mean-square criterion, while the complexity is still kept to a reasonable level. The paper also describes the codebook design and techniques that were employed to achieve robustness in noisy channel conditions.

Original language	English
Pages (from-to)	1496-1506
Number of pages	11
Journal	IEICE Transactions on Information and Systems
Volume	E87-D
Issue number	6
Publication status	Published - 2004 Jun
Externally published	Yes

Keywords

Line spectral frequencies
Line spectrum pairs
Spectral quantization
Speech coding
Split vector quantization

ASJC Scopus subject areas

Software
Hardware and Architecture
Computer Vision and Pattern Recognition
Electrical and Electronic Engineering
Artificial Intelligence

Cite this

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AU - Yasunaga, Kazutoshi

AU - Morii, Toshiyuki

AU - Ehara, Hiroyuki

AU - Kaneko, Takao

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AB - This paper presents an efficient LSP quantizer implementation for low bit-rate coders. The major feature of the quantizer is that it uses a truncated cepstral distance criterion for the code selection procedure. This approach has generally been considered too computationally costly. We utilized the quantizer with a moving-average predictor, two-stage-split vector quantizer and delayed decision. We have investigated the optimal parameter settings in this case and incorporated the quantizer thus obtained into an ITU-T 4-kbit/s speech coding candidate algorithm with a bit budget of 21 bits. The objective performance is better than that with a conventional weighted mean-square criterion, while the complexity is still kept to a reasonable level. The paper also describes the codebook design and techniques that were employed to achieve robustness in noisy channel conditions.

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KW - Split vector quantization

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Design of a robust LSP quantizer for a high-quality 4-kbit/s CELP speech coder

Abstract

Keywords

ASJC Scopus subject areas

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