On the analysis and design of variable rate trellis source codes

E. Yang, Zhen Zhang
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引用次数: 0

Abstract

We extend the fixed slope lossy algorithm derived from the kth order arithmetic codeword length function to the case of trellis structured decoders and, as a result, get a new coding method, namely, the so-called variable rate trellis source encoding which aims to jointly optimize the resulting distortion, compression rate, and selected encoding path. It is shown both theoretically and experimentally that properly designed variable rate trellis source codes are very efficient in low rate regions (below 0.8 bits/sample). With k=8 and the number of states in the decoder =32, the mean squared error encoding performance at the rate 1/2 bits/sample for memoryless Laplacian sources is about 1 dB better than that afforded by the trellis coded quantizers with 256 states. With k=8 and the number of states in the decoder =256, the mean squared error encoding performance at the rates of a fraction of 1 bit/sample for highly dependent Gauss Markov sources with correlation coefficient 0.9 is within about 0.6 dB of the distortion rate function. Note that at such low rates, predictive coders usually perform poorly.
关于变量格的分析与设计的源代码
我们将基于k阶算术码字长度函数的固定斜率有损算法推广到栅格结构解码器的情况下,得到了一种新的编码方法,即所谓的可变速率栅格源编码,其目的是共同优化产生的失真率、压缩率和编码路径的选择。理论和实验都表明,适当设计的可变速率网格源代码在低速率区域(低于0.8比特/样本)是非常有效的。当k=8,解码器的状态数=32时,无记忆拉普拉斯源在1/2 bits/sample速率下的均方误差编码性能比具有256个状态的栅格编码量化器的编码性能好1 dB左右。当k=8,解码器的状态数=256时,对于相关系数为0.9的高度相关的高斯马尔可夫源,在1比特/样本的分数率下,均方误差编码性能在失真率函数的0.6 dB范围内。请注意,在如此低的速率下,预测编码器通常表现不佳。
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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