A reliable multicast transport protocol for satellite IP networks

Global Telecommunications Conference, 2002. GLOBECOM '02. IEEE Pub Date : 2002-11-17 DOI:10.1109/GLOCOM.2002.1189167

Jian Fang, I. Akyildiz

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引用次数: 6

Abstract

A multicast transport protocol, called TCP Peachtree, is proposed for satellite IP networks. In addition to the acknowledgment implosion and scalability problems appearing in terrestrial wirelined networks, satellite multicasting has additional problems, i.e., low bandwidth feedback link, different multicast topology and congestion control. In TCP Peachtree, the modified B+ tree hierarchical structure is used to form dynamic multicast groups. Local error recovery and ACK aggregations are performed within each subgroup and also via logical subgroups. Two new algorithms, jump start and quick recovery, which are based on a type of low priority segments, called NIL segments, are proposed for congestion control. NIL segments are used to probe the availability of network resources and also for error recovery. Moreover, an ACK filter is also introduced to aggregate ACKs. The simulation results show that the congestion control algorithms in TCP Peachtree outperform TCP NewReno when combined with our hierarchical groups and ACK filter. It is also shown that TCP Peachtree can have very good scalability.

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卫星IP网络的可靠组播传输协议

提出了一种用于卫星IP网络的多播传输协议，称为TCP桃树协议。卫星多播除了在地面有线网络中出现的确认内爆和可扩展性问题外，还存在反馈链路带宽低、多播拓扑结构不同和拥塞控制等问题。在TCP Peachtree中，采用改进的B+树层次结构来组成动态组播组。本地错误恢复和ACK聚合在每个子组内执行，也通过逻辑子组执行。提出了两种基于低优先级段(称为NIL段)的快速启动和快速恢复算法来控制拥塞。NIL段用于探测网络资源的可用性，也用于错误恢复。此外，还引入了ACK过滤器对ACK进行聚合。仿真结果表明，与我们的分层分组和ACK过滤器相结合，TCP Peachtree中的拥塞控制算法优于TCP NewReno。实验还表明，TCP Peachtree具有很好的可扩展性。

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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Global Telecommunications Conference, 2002. GLOBECOM '02. IEEE

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