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Epidemic outbreaks in growing scale-free networks with local structure

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  • Ni, Shunjiang
  • Weng, Wenguo
  • Shen, Shifei
  • Fan, Weicheng

Abstract

The class of generative models has already attracted considerable interest from researchers in recent years and much expanded the original ideas described in BA model. Most of these models assume that only one node per time step joins the network. In this paper, we grow the network by adding n interconnected nodes as a local structure into the network at each time step with each new node emanating m new edges linking the node to the preexisting network by preferential attachment. This successfully generates key features observed in social networks. These include power-law degree distribution pk∼k−(3+μ), where μ=(n−1)/m is a tuning parameter defined as the modularity strength of the network, nontrivial clustering, assortative mixing, and modular structure. Moreover, all these features are dependent in a similar way on the parameter μ. We then study the susceptible-infected epidemics on this network with identical infectivity, and find that the initial epidemic behavior is governed by both of the infection scheme and the network structure, especially the modularity strength. The modularity of the network makes the spreading velocity much lower than that of the BA model. On the other hand, increasing the modularity strength will accelerate the propagation velocity.

Suggested Citation

  • Ni, Shunjiang & Weng, Wenguo & Shen, Shifei & Fan, Weicheng, 2008. "Epidemic outbreaks in growing scale-free networks with local structure," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 387(21), pages 5295-5302.
  • Handle: RePEc:eee:phsmap:v:387:y:2008:i:21:p:5295-5302
    DOI: 10.1016/j.physa.2008.05.051
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    Cited by:

    1. Ni, Shunjiang & Weng, Wenguo & Zhang, Hui, 2011. "Modeling the effects of social impact on epidemic spreading in complex networks," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 390(23), pages 4528-4534.

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