Bandwidth-Based Congestion Control for TCP: Measurement Noise-Aware Parameter Settings and Self-Induced Oscillation

2009 IEEE International Conference on Communications Workshops Pub Date : 2009-06-14 DOI:10.1109/ICCW.2009.5207973

M. Kodama, G. Hasegawa, M. Murata

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引用次数: 2

Abstract

With increase in the heterogeneity and complexity of the Internet, many problems have emerged in the traditional TCP Reno. Against the problem, we have proposed a new bandwidth- based TCP congestion control mechanism, TCP Symbiosis. Unlike the recent works on delay-based and hybrid congestion control, TCP Symbiosis relies on the bandwidth measurement to control the congestion window size. Although we have confirmed that TCP Symbiosis has the effectiveness in terms of average throughput, stability, and scalability to the bandwidth-delay product, the throughput of TCP Symbiosis highly depends on the measurement results of available bandwidth. In this paper, we redesign TCP Symbiosis to deal with the measurement error and noise of the available bandwidth. First, we propose the dynamic parameter setting algorithm based on the variance of the measured available bandwidth. Second, for the purpose of absorbing the ill-effect of environmental change, we propose to add self-induced oscillation to the congestion window size of TCP connection. We confirm the effectiveness of the proposed methods through ns-2 simulation experiments.

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基于带宽的TCP拥塞控制:测量噪声感知参数设置和自激振荡

随着Internet异构性和复杂性的增加，传统的TCP协议出现了许多问题。针对这个问题，我们提出了一种新的基于带宽的TCP拥塞控制机制——TCP共生机制。与最近基于延迟和混合拥塞控制的工作不同，TCP共生依赖于带宽测量来控制拥塞窗口大小。虽然我们已经证实TCP Symbiosis在平均吞吐量、稳定性和带宽延迟乘积的可扩展性方面具有有效性，但TCP Symbiosis的吞吐量高度依赖于可用带宽的测量结果。本文对TCP共生系统进行了重新设计，以解决可用带宽的测量误差和噪声问题。首先，提出了基于实测可用带宽方差的动态参数设置算法。其次，为了吸收环境变化的不良影响，我们建议在TCP连接的拥塞窗口大小中加入自激振荡。通过ns-2仿真实验验证了所提方法的有效性。

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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2009 IEEE International Conference on Communications Workshops

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