随机联合源信道编码用于低比特率鲁棒语音编码

2011 Saudi International Electronics, Communications and Photonics Conference (SIECPC) Pub Date : 2011-04-24 DOI:10.1109/SIECPC.2011.5876931

M. Bouzid, Hichem Benkherouf, Khaled Benzadi

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引用次数: 1

摘要

在低比特率下工作的语音编码器需要对线性预测编码(LPC)系数进行高效编码。在本文中，我们提出了一种随机联合源信道方案，该方案根据LSF参数对LPC系数进行有效和鲁棒的编码。该编码系统名为LSF- sscovq - rc，是一种针对噪声信道优化的基于降复杂度随机分裂矢量量化器的LSF编码方案。对于噪声信道上的传输，我们将首先证明我们的LSF- sscovq - rc编码器优于由分裂矢量量化器(SVQ)设计的传统LSF编码器。然后，我们应用LSF- sscovq - rc编码器(带加权距离)对在噪声信道上工作的MELP语音编码器的LSF参数进行鲁棒编码。仿真结果表明，将LSF编码器集成到MELP中，比原MELP的MSVQ (25 bits/帧)具有更好的性能;尤其是当信道受到高度干扰时。

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Stochastic joint source-channel coding for low bit rate robust speech coding

Speech coders operating at low bit rates necessitate efficient encoding of the linear predictive coding (LPC) coefficients. In this paper, we propose a stochastic joint source-channel scheme developed for efficient and robust encoding of LPC coefficients in terms of LSF parameters. The encoding system, named LSF-SSCOVQ-RC, is an LSF encoding scheme based on a reduced complexity stochastic split vector quantizer optimized for noisy channel. For transmissions over noisy channel, we will show first that our LSF-SSCOVQ-RC encoder outperforms the conventional LSF encoder designed by the split vector quantizer (SVQ). After that, we applied the LSF-SSCOVQ-RC encoder (with weighted distance) for the robust encoding of LSF parameters of the MELP speech coder operating over a noisy channel. The simulation results will show that the proposed LSF encoder, incorporated in the MELP, ensure better performances than the original MELP MSVQ of 25 bits/frame; especially when the channel is highly disturbed.

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2011 Saudi International Electronics, Communications and Photonics Conference (SIECPC)

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