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Fractal Boundaries of Complex Networks

Mathematical Physics 2016-09-08 v1 Disordered Systems and Neural Networks Statistical Mechanics math.MP Data Analysis, Statistics and Probability Physics and Society
Authors: Jia Shao , Sergey V. Buldyrev , Reuven Cohen , Maksim Kitsak , Shlomo Havlin , H. Eugene Stanley
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Abstract

We introduce the concept of boundaries of a complex network as the set of nodes at distance larger than the mean distance from a given node in the network. We study the statistical properties of the boundaries nodes of complex networks. We find that for both Erd\"{o}s-R\'{e}nyi and scale-free model networks, as well as for several real networks, the boundaries have fractal properties. In particular, the number of boundaries nodes {\it B} follows a power-law probability density function which scales as B2B^{-2}. The clusters formed by the boundary nodes are fractals with a fractal dimension df2d_{f} \approx 2. We present analytical and numerical evidence supporting these results for a broad class of networks. Our findings imply potential applications for epidemic spreading.

Keywords

fractals complex networks percolation in networks

Cite

@article{arxiv.0804.1968,
  title  = {Fractal Boundaries of Complex Networks},
  author = {Jia Shao and Sergey V. Buldyrev and Reuven Cohen and Maksim Kitsak and Shlomo Havlin and H. Eugene Stanley},
  journal= {arXiv preprint arXiv:0804.1968},
  year   = {2016}
}

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