Optimal design of hybrid FEC/ARQ schemes for real-time applications in wireless networks

Wireless Multimedia Networking and Performance Modeling Pub Date : 2006-10-06 DOI:10.1145/1163698.1163701

R. E. Azouzi, Thierry Peyre, A. Benslimane

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引用次数: 12

Abstract

Multimedia data transmission over wireless networks often suffers from delay, jitter and packet loss. The main problem to implement a wireless network is the high and variable bit error rate in the radio link, making it necessary to use an additional error control mechanism. The traditional techniques for error control are ARQ (Automatic Repeat Request) and FEC (Forward Error Correction). The ARQ technique works better than FEC, if the bit error rate in the channel is low, and worse, if the bit error rate is high. Thus, hybrid ARQ/FEC techniques can improve the performance. In this paper, a novel hybrid ARQ/FEC scheme is analyzed in an environment of real-time applications. We focus in a simple FEC scheme which has been standardized by IETF [11]. It consists in adding a low quality copy of the original packet n to the packet n + ø. If packet n is lost in the network, it can be correctly recovered if packet n +ø is correctly received. The effect of link layer (LL) parameters like the number of LL transmission attempts, offset ø , LL packet size, and FEC code rate on the TFRC (TCP Friendly Rate Control)and UDP performance is evaluated. We show that the combination of FEC and ARQ reduces the number of retransmissions and the time spent by a packet in the buffer at the output of the wireless link. We validate our analytical results using ns-2 [9]simulation

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无线网络实时应用中FEC/ARQ混合方案的优化设计

无线网络上的多媒体数据传输经常存在延迟、抖动和丢包等问题。实现无线网络的主要问题是无线电链路中的高且可变的误码率，这使得有必要使用额外的错误控制机制。传统的错误控制技术有ARQ(自动重复请求)和FEC(前向纠错)。在信道误码率较低的情况下，ARQ技术比FEC技术效果好;在信道误码率较高的情况下，ARQ技术效果较差。因此，混合ARQ/FEC技术可以提高性能。本文在实时应用环境下，分析了一种新的ARQ/FEC混合方案。我们专注于一个简单的FEC方案，该方案已被IETF标准化[11]。它包括将原始数据包n的低质量副本添加到数据包n + ø。如果n包在网络中丢失，如果正确接收到n +ø包，则可以正确恢复n包。评估链路层(link layer, LL)参数(如LL传输尝试次数、偏移量、LL数据包大小和FEC码率)对TCP友好速率控制(TFRC)和UDP性能的影响。我们表明，FEC和ARQ的组合减少了重传的次数和数据包在无线链路输出端的缓冲区中花费的时间。我们使用ns-2[9]模拟验证了我们的分析结果

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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Wireless Multimedia Networking and Performance Modeling

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