Integrated Design of Hierarchical QAM Modulation and Retransmission Diversity for Multimedia Wireless Networks

2010 7th IEEE Consumer Communications and Networking Conference Pub Date : 2010-01-09 DOI:10.1109/CCNC.2010.5421624

A. Annamalai, J. Matyjas, M. Medley

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引用次数: 4

Abstract

The current and future wireless systems need to support a multitude of services with a wide range of data rates and reliability requirements. The limited battery resource at the mobile terminals coupled with the hostile multipath fading channel makes the problem of providing reliable multimedia services challenging. In this article, we develop a novel method to mechanize a prioritized unicast transmission at the physical layer in response to the disparate quality of service requirements for multimedia traffic (imposed by upper layers) and investigate how the unequal bit error protection offered by multiresolution modulation is capitalized at the data link layer to yield a substantial throughput gain and minimize the packet loss probability of the "more important" packets in an integrated voice/data and delay-sensitive applications (especially in poor and moderate channel conditiom). However, there exists a slight throughput penalty in the high signal-to-noise ratio regime due to competitive nature of the "optimal reliable signaling rate" in an unknown time-varying channel.

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多媒体无线网络分层QAM调制与重传分集的集成设计

当前和未来的无线系统需要支持多种具有广泛数据速率和可靠性要求的业务。移动终端有限的电池资源加上敌对的多径衰落信道，使得提供可靠的多媒体服务成为一个难题。在本文中，我们开发了一种新的方法，在物理层机械化优先的单播传输，以响应多媒体流量(由上层施加)的不同服务质量要求，并研究如何在数据链路层利用多分辨率调制提供的不平等误码保护，以产生实质性的吞吐量增益，并最大限度地减少在集成语音/数据和延迟敏感中“更重要”数据包的丢包概率应用(特别是在较差和中等信道条件下)。然而，由于未知时变信道中“最优可靠信号速率”的竞争性质，在高信噪比条件下存在轻微的吞吐量损失。

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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2010 7th IEEE Consumer Communications and Networking Conference

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