多媒体传输的二项概率冗余策略

2010 IEEE Fifth International Conference on Networking, Architecture, and Storage Pub Date : 2010-07-15 DOI:10.1109/NAS.2010.45

Lizhuo Zhang, W. Jia, Shifei Zhou

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引用次数: 0

摘要

提出了一种二项概率冗余模型(BPRM)。该模型基于前向纠错(FEC)里德-所罗门编码技术和交织丢包恢复技术。它根据接收方的反馈计算冗余数据包的数量，并动态生成这些冗余数据包。与McKinley等人提出的线性概率冗余模型(LPRM)不同，我们采用交织技术来传输这些冗余数据包。我们还提出了一种带宽控制策略来提高视频数据的质量。实验结果表明，BPRM在网络拥挤的情况下也能产生足够的冗余数据包。与LPRM相比，这些数据包保证了接收端能够恢复原始数据并获得更好的视频质量。

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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Binomial Probability Redundancy Strategy for Multimedia Transmission

This paper proposes a Binomial Probability Redundancy Model (BPRM). This model is based on the Forward Error Correction (FEC) Reed-Solomon Coding Technique and the Interweaving Packet Loss Recovery Technique. It calculates the number of redundant packets according to the feedback from the receiver and dynamically generates these superfluous packets. Different from the Linear Probability Redundancy Model (LPRM) proposed by McKinley et al., we adopt the interweaving technique to transmit these redundant packets. We also present a bandwidth control strategy to improve quality of video data. The experimental result shows that BPRM is able to generate enough redundant packets even under congestive network condition. These packets ensure the receiver to restore the original data and achieve a better video quality compared with LPRM.

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2010 IEEE Fifth International Conference on Networking, Architecture, and Storage

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