Adaptive Joint Source-Channel Coding Using Multilevel codes for Unequal Error Protection and Hierarchical Modulation for SPIHT Image Transmission

2019 IEEE 19th Mediterranean Microwave Symposium (MMS) Pub Date : 2019-10-01 DOI:10.1109/mms48040.2019.9157279

A. Abdallah, Amin Zribi, A. Dziri, F. Tlili, M. Terré

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Abstract

A highly reliable and efficient wireless communication system for compressed images delivery is required in emerging multimedia applications. However, the transmission of the image can be attenuated by different factors mainly involved by the wireless communication multimedia systems. In the past decades, various source and channel coding schemes have been developed separately. In this paper, we investigate a joint source-channel coding scheme to improve the image transmission performance. Our main target is to reach a good tradeoff in terms of rate-distortion for Set Partitioning in Hierarchical Trees (SPIHT) image transmission. For the wireless communication part, we consider the Audio Visual PHY Ultra Wide Band IEEE 802.15.3c system. The proposed strategies rely on adaptive process applied for error protection and the modulation operations. Thus, error correcting codes for unequal error protection (UEP) of the compressed bit streams is included. Then, Hierarchical Modulation (HM) is applied to the different bits according to their importance levels. Full of simulations are performed and our results show image quality improvements at the receiver using multilevel UEP and Hierarchical Modulation compared to the ordinary joint source-channel coding system without introducing any extra bandwidth usage.

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基于多级码的不等错误保护和分层调制的SPIHT图像传输自适应联合源信道编码

在新兴的多媒体应用中，需要一种高可靠、高效的压缩图像传输无线通信系统。然而，无线通信多媒体系统主要涉及到的各种因素会对图像的传输产生衰减。在过去的几十年里，各种各样的源和信道编码方案分别被开发出来。本文研究了一种联合源信道编码方案，以提高图像传输性能。我们的主要目标是在分层树集分割(SPIHT)图像传输的速率失真方面达到一个良好的权衡。在无线通信部分，我们考虑了视听PHY超宽带IEEE 802.15.3c系统。所提出的策略依赖于自适应过程应用于错误保护和调制操作。因此，包含了用于压缩比特流的不等错误保护(UEP)的纠错码。然后根据不同比特的重要程度对其进行分层调制(HM)。我们进行了大量的仿真，结果表明，与普通的联合源信道编码系统相比，使用多电平UEP和分层调制的接收机图像质量得到了改善，而无需引入任何额外的带宽使用。

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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2019 IEEE 19th Mediterranean Microwave Symposium (MMS)

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