仅接收机优化的矢量量化噪声信道

2008 IEEE 19th International Symposium on Personal, Indoor and Mobile Radio Communications Pub Date : 2008-12-08 DOI:10.1109/PIMRC.2008.4699767

C. Murthy

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引用次数: 4

摘要

本文考虑在源编码系统的接收端设计和分析滤波器，以减轻由于信道误差引起的过量均方误差(MSE)失真。假设源编码器是信道无关的，即采用针对无噪声信道设计的基于矢量量化(VQ)的压缩。源编码器输出的索引通过一个有噪声的无记忆的离散对称信道发送，接收到的可能不正确的索引由相应的VQ解码器解码。VQ解码器的输出由接收滤波器处理以获得源实例化的估计。在第二部分中，推导出了使总体MSE最小的最佳线性接收滤波器结构，并显示出具有最小均方误差的接收器类型结构。此外，还推导了相应的表达式，以获得高速率的MSE性能。并将其性能与传统VQ和信道优化VQ得到的MSE进行了比较。通过蒙特卡洛仿真验证了表达式的准确性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Receiver-only optimized Vector Quantization for noisy channels

This paper considers the design and analysis of a filter at the receiver of a source coding system to mitigate the excess Mean-Squared Error (MSE) distortion caused due to channel errors. It is assumed that the source encoder is channel-agnostic, i.e., that a vector quantization (VQ) based compression designed for a noiseless channel is employed. The index output by the source encoder is sent over a noisy memoryless discrete symmetric channel, and the possibly incorrect received index is decoded by the corresponding VQ decoder. The output of the VQ decoder is processed by a receive filter to obtain an estimate of the source instantiation. In the sequel, the optimum linear receive filter structure to minimize the overall MSE is derived, and shown to have a minimum-mean squared error receiver type structure. Further, expressions are derived for the resulting high-rate MSE performance. The performance is compared with the MSE obtained using conventional VQ as well as the channel optimized VQ. The accuracy of the expressions is demonstrated through Monte Carlo simulations.

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2008 IEEE 19th International Symposium on Personal, Indoor and Mobile Radio Communications

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