Contribution of the application, transport and network layers to the self-similarity of Internet traffic

2003 IEEE Pacific Rim Conference on Communications Computers and Signal Processing (PACRIM 2003) (Cat. No.03CH37490) Pub Date : 2003-10-14 DOI:10.1109/PACRIM.2003.1235892

P. Rácz, T. Matsuda, M. Yamamoto

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引用次数: 6

Abstract

There have been few studies evaluating the dominant factor responsible for generating self-similar network traffic while many researchers have discussed the causes of self-similarity. In this paper, we have isolated and compared the effects of the application, transport and network layers on the self-similarity of TCP flows and their aggregates. With a simple computer simulation scenario, we show that in networks where congestion frequently occurs the transport layer dominates the self-similarity of single TCP flows over the application layer. Next we focus on the interactions between the transport and network layer. We show that on high packet loss rates the exponential backoff technique of the TCP is responsible for the elevated level of self-similarity while on low packet loss rates, the synchronization between the TCP flows may induce high degree of self-similarity of the aggregated TCP sessions. To support this conjecture on synchronization, we show synchronization is only present when the TCP flows of the the aggregate operate mostly in congestion avoidance mode.

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应用层、传输层和网络层对互联网流量自相似性的贡献

对产生自相似网络流量的主导因素进行评估的研究很少，而许多研究者讨论了自相似产生的原因。在本文中，我们分离并比较了应用层、传输层和网络层对TCP流及其聚合的自相似性的影响。通过一个简单的计算机模拟场景，我们展示了在经常发生拥塞的网络中，传输层主导了应用层上单个TCP流的自相似性。接下来我们关注传输层和网络层之间的交互。研究表明，在高丢包率下，TCP的指数回退技术提高了自相似度，而在低丢包率下，TCP流之间的同步可能导致聚合TCP会话的高度自相似度。为了支持这个关于同步的猜想，我们展示了只有当聚合的TCP流主要以拥塞避免模式操作时，同步才会出现。

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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2003 IEEE Pacific Rim Conference on Communications Computers and Signal Processing (PACRIM 2003) (Cat. No.03CH37490)

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