Small-world characteristics of the Internet and multicast scaling

Shudong Jin, Azer Bestavros
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引用次数: 7

Abstract

Recent work has shown that the physical connectivity of the Internet exhibits small-world behavior. Characterizing such behavior is important not only for generating realistic Internet topologies, but also for the proper evaluation of network algorithms and protocols. Along this line, this paper tries to answer how small-world behavior arises in the Internet topologies and how it impacts the performance of multicast techniques. First, we attribute small-world behavior to two possible causes: the variability of vertex degree and the preference of vertices to have local connections. We found that both factors contribute with different relative degrees to the small-world behavior of the AS-level and router-level Internet topologies. For the AS-level topology, we have observed that extremely high variability of vertex degree is sufficient to cause small-world behavior, but for the router-level topology, preference for local connectivity plays a more important role. Second, we propose simple models to generate more realistic small-world Internet topologies. Our models consider both causes of small-world behavior. Third, we demonstrate the significance of our work by studying the scaling behavior of IP multicast tree size. We show that if topology generators capture only the variability of vertex degree, they are likely to underestimate the efficacy of multicast techniques.
Internet的小世界特性与组播扩展
最近的研究表明,互联网的物理连接表现出小世界行为。描述这种行为不仅对生成真实的互联网拓扑很重要,而且对正确评估网络算法和协议也很重要。沿着这条思路,本文试图回答小世界行为是如何在互联网拓扑中出现的,以及它如何影响多播技术的性能。首先,我们将小世界行为归因于两个可能的原因:顶点度的可变性和顶点具有局部连接的偏好。我们发现,这两个因素对as级和路由器级互联网拓扑的小世界行为有不同程度的影响。对于as级拓扑,我们已经观察到顶点度的极高可变性足以导致小世界行为,但对于路由器级拓扑,对本地连接的偏好起着更重要的作用。其次,我们提出了简单的模型来生成更现实的小世界互联网拓扑。我们的模型考虑了小世界行为的两个原因。第三,我们通过研究IP组播树大小的缩放行为来证明我们工作的意义。研究表明,如果拓扑生成器只捕获顶点度的可变性,它们可能会低估多播技术的有效性。
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