自适应流量控制:延迟快速恢复的扩展

15th International Conference on Advanced Computing and Communications (ADCOM 2007) Pub Date : 2007-12-18 DOI:10.1109/ADCOM.2007.29

N. Kothari, Bhavika Gambhava, K. Dasgupta

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引用次数: 18

摘要

考虑到无线链路TCP的性能问题，无线链路(地面和卫星)与地面有线网络的集成一直是一个广泛研究的课题。SACK TCP的性能改进已经在前面通过延迟快速恢复得到了体现。而延迟快速恢复技术正好避免了随机丢失情况下的流量控制。如果不能排除拥塞，该技术在不考虑网络拥塞程度的情况下触发快速恢复，并常规地减少拥塞窗口。本文提出了一种延迟快速恢复算法的扩展，该算法通过对拥塞的估计来确定TCP流量。该方案保留了传统的损失恢复，并解耦了TCP流量控制，该控制依赖于两个连续损失之间的位移。仿真实验表明，改进后的SACK TCP在大延迟错误链路上的性能有了显著提高。然而，在传统的地面有线网络中，由于拥塞造成的损失是常见的，因此性能是相当的。

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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Adaptive Flow Control: An Extension to Delayed Fast Recovery

The integration of wireless links (terrestrial and satellite) with terrestrial wired networks has been a subject of extensive research keeping in view the performance issues of TCP with wireless links. Performance improvement in SACK TCP has been shown earlier by delaying fast recovery. However, the technique of delayed fast recovery just avoids flow control in case of random loss. If congestion cannot be ruled out, the technique triggers fast recovery and reduces congestion window conventionally without considering degree of congestion in the network. In this paper, an extension to delayed fast recovery algorithm is presented, which determines TCP flow depending on the estimation of congestion. The proposed scheme preserves conventional loss recovery and decouples TCP flow control, which depends on the displacement between two consecutive losses. Simulation based experiments demonstrate noticeable performance improvement with modified SACK TCP on large delay erroneous links. However, the performance is comparable in case of conventional terrestrial wired networks where losses due to congestion are common.

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15th International Conference on Advanced Computing and Communications (ADCOM 2007)

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