Effective adaptive rate allocation for DP-LDPC image transmission system based on source and channel characteristics

2017 IEEE 17th International Conference on Communication Technology (ICCT) Pub Date : 2017-10-01 DOI:10.1109/ICCT.2017.8359694

Lijun Deng, Zhiping Shi, Shujun Zhang, Rui Tang, Liuyue Gan

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引用次数: 2

Abstract

Image transmission issue with high entropy frames is a great challenge for joint source channel coding (JSCC) system based on double protograph low-density parity-check codes (DP-LDPC) due to its sensitivity to source statistics. Aiming at this question, we proposed an effective rate allocation scheme with the premise of unfixed total rate to allocate the source coding rate and channel coding rate for each frame based on source and channel characteristics. In this scheme, two kinds of objective utility function (OUF) models and corresponding rate allocation methods are provided, including the single objective utility function (SOUF) model with global search method and the multi-objective utility function (MOUF) model with fuzzy logic control (FLC) method. Simulation results indicate that both models are effective for DP-LDPC system with high entropy frames, and the MOUF model with FLC method has better adaptive capacity to time-varying channel and better balance on transmission efficiency, image quality and fairness of allocation. The proposed methods offer some new solutions for high entropy frame problem of DP-LDPC image transmission system.

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基于信源和信道特性的DP-LDPC图像传输系统有效自适应速率分配

高熵帧的图像传输问题是基于双原型低密度校验码(DP-LDPC)的联合信源信道编码(JSCC)系统的一大挑战，因为它对信源统计量非常敏感。针对这一问题，我们提出了一种有效的速率分配方案，在总速率不固定的前提下，根据信源和信道的特性对每帧进行源编码速率和信道编码速率的分配。该方案提供了两种目标效用函数(OUF)模型和相应的费率分配方法，包括采用全局搜索方法的单目标效用函数(SOUF)模型和采用模糊逻辑控制(FLC)方法的多目标效用函数(MOUF)模型。仿真结果表明，两种模型对具有高熵帧的DP-LDPC系统都是有效的，并且采用FLC方法的MOUF模型对时变信道具有更好的自适应能力，在传输效率、图像质量和分配公平性方面具有更好的平衡。所提出的方法为DP-LDPC图像传输系统的高熵帧问题提供了一些新的解决方案。

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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2017 IEEE 17th International Conference on Communication Technology (ICCT)

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