On Necessary Conditions for Scale-Freedom in Complex Networks with Applications to Computer Communication Systems

2008 First International Conference on Intelligent Networks and Intelligent Systems Pub Date : 2008-11-01 DOI:10.1080/00207720903267841

W. Xiao, Weidong Chen, B. Parhami

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引用次数: 19

Abstract

Many complex networks exhibit a scale-free, power-law distribution of vertex degrees. This common feature is a consequence of two generic mechanisms relating to the formation of real networks: (i) Networks tend to expand over time through the addition of new vertices, and (ii) New vertices attach preferentially to those that are already well connected. We show that for many natural or man-made complex networks possessing a scale-free power-law distribution with the exponent gamma > 2, the number of degree-1 vertices, when nonzero, is of the same order as the network size N and that the average degree is of order log N. Our results expose another necessary characteristic of such networks. Furthermore, our method has the benefit of relying only on conditions that are static and easily verified for arbitrary networks. We use the preceding results to derive a closed-form formula approximating the distance distribution in scale-free networks. Such distributions find extensive applications in computer communication networks and software architecture.

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复杂网络尺度自由的必要条件及其在计算机通信系统中的应用

许多复杂网络表现出顶点度的无标度、幂律分布。这种共同特征是与真实网络形成有关的两种一般机制的结果:(i)网络倾向于通过添加新顶点而随着时间的推移而扩展，(ii)新顶点优先附着在已经连接良好的顶点上。我们证明了对于许多具有指数γ > 2的无标度幂律分布的自然或人工复杂网络，当非零时，1度顶点的数量与网络大小N具有相同的阶数，并且平均度为log N阶。我们的结果揭示了此类网络的另一个必要特征。此外，我们的方法的优点是只依赖于静态的条件，并且易于对任意网络进行验证。我们利用前面的结果导出了一个近似于无标度网络中距离分布的封闭公式。这种分布在计算机通信网络和软件体系结构中有广泛的应用。

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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来源期刊

2008 First International Conference on Intelligent Networks and Intelligent Systems

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