Cross-layer architecture for TCP splitting in the return channel over satellite networks

2009 6th International Symposium on Wireless Communication Systems Pub Date : 2009-10-13 DOI:10.1109/ISWCS.2009.5285267

Elizabeth Rendon-Morales, Jorge Mata-Díaz, Juan J. Alins-Delgado, J. L. Muñoz, O. Esparza

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引用次数: 6

Abstract

Transport protocols used in satellite networks face challenges such as variable link capacity, large propagation delay effects and packet corruption. In this paper a new cross-layer architecture for TCP splitting is proposed in the return link of geostationary satellite networks to improve the TCP performance. This new cross-layer architecture defines the interactions between layers to coordinate the TCP splitters taking into account the real-time cross-layer information. This feedback information is sent from the Return Channel Satellite Terminal to the feeder Performance Enhancement Proxy using the Simple Network Management Protocol. A complete analysis of our proposed cross-layer architecture has been carried out using NS-2 simulator to compare it with the standard TCP splitting. The simulation results show that our proposal notably reduces the transfer times for short lived connections. Moreover, it is observed that sudden variations of capacity in the return satellite channel are perfectly tracked by this new cross-layer architecture and not by the standard TCP splitting.

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卫星网络返回通道中TCP分离的跨层体系结构

卫星网络中使用的传输协议面临着诸如可变链路容量、大传播延迟效应和数据包损坏等挑战。为了提高对地静止卫星网络返回链路的TCP性能，提出了一种新的TCP拆分跨层结构。这种新的跨层体系结构定义了层与层之间的交互，以便在考虑实时跨层信息的情况下协调TCP拆分器。该反馈信息使用简单网络管理协议从返回信道卫星终端发送到馈线性能增强代理。使用NS-2模拟器对我们提出的跨层架构进行了完整的分析，并将其与标准TCP分割进行了比较。仿真结果表明，我们的方案显著减少了短连接的传输时间。此外，还观察到，这种新的跨层体系结构可以很好地跟踪返回卫星信道容量的突然变化，而不是标准的TCP分割。

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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2009 6th International Symposium on Wireless Communication Systems

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