Co-Existence of Network and Terminal Mobility in the Context of TCP Performance

2010 IEEE International Conference on Communications Workshops Pub Date : 2010-05-23 DOI:10.1109/ICCW.2010.5503943

B. Sardar, M. Nasipuri, Debashis Saha

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引用次数: 2

Abstract

Both the network mobility and the terminal mobility are likely to co-exist in the future. These two mobile communication paradigms have different wireless connectivity models and likely to deploy different schemes to address the wireless related performance issues for TCP. In this paper, we con-sider TCP Snoop, which allows a mobile terminal to efficiently recover from wireless-related losses. For the network mobil-ity, we consider on-board TCP (obTCP), which improves snooping performance when the mobile terminal is located inside a moving network. We investigate the performance of obTCP and Snoop when they operate over a common cellular base station. We evaluate their end-to-end throughput, and also their fairness in using cellular resources. Our study re-veals that obTCP achieves higher throughput than Snoop. We have further analyzed the results to show that the differences in the retransmission mechanisms of Snoop and obTCP are responsible for the higher throughput attained by obTCP. We have also observed that, obTCP does not bring any significant unfair to Snoop, allowing network mobility to co-exist with terminal mobility.

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TCP性能下网络与终端移动性的共存

在未来，网络移动性和终端移动性可能会共存。这两种移动通信范式具有不同的无线连接模型，并且可能部署不同的方案来解决TCP的无线相关性能问题。在本文中，我们考虑TCP Snoop，它允许移动终端有效地从无线相关的损失中恢复。对于网络的移动性，我们考虑了车载TCP (obTCP)，当移动终端位于移动网络中时，该协议提高了侦听性能。我们研究了obTCP和Snoop在一个共同的蜂窝基站上运行时的性能。我们评估了它们的端到端吞吐量，以及它们在使用蜂窝资源方面的公平性。我们的研究表明，obTCP实现了比Snoop更高的吞吐量。我们进一步分析了结果，表明Snoop和obTCP在重传机制上的差异是obTCP获得更高吞吐量的原因。我们还观察到，obTCP并没有给Snoop带来任何明显的不公平，允许网络移动性与终端移动性共存。

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 IEEE International Conference on Communications Workshops

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