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Epidemic propagation on adaptive coevolutionary networks with preferential local-world reconnecting strategy 被引量:2

Epidemic propagation on adaptive coevolutionary networks with preferential local-world reconnecting strategy
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摘要 In the propagation of an epidemic in a population, individuals adaptively adjust their behavior to avoid the risk of an epidemic. Differently from existing studies where new links are established randomly, a local link is established preferentially in this paper. We propose a new preferentially reconnecting edge strategy depending on spatial distance (PR- SD). For the PR-SD strategy, the new link is established at random with probability p and in a shortest distance with the probability 1 p. We establish the epidemic model on an adaptive network using Cellular Automata, and demonstrate the effectiveness of the proposed model by numerical simulations. The results show that the smaller the value of parameter p, the more difficult the epidemic spread is. The PR-SD strategy breaks long-range links and establishes as many short-range links as possible, which causes the network efficiency to decrease quickly and the propagation of the epidemic is restrained effectively. In the propagation of an epidemic in a population, individuals adaptively adjust their behavior to avoid the risk of an epidemic. Differently from existing studies where new links are established randomly, a local link is established preferentially in this paper. We propose a new preferentially reconnecting edge strategy depending on spatial distance (PR- SD). For the PR-SD strategy, the new link is established at random with probability p and in a shortest distance with the probability 1 p. We establish the epidemic model on an adaptive network using Cellular Automata, and demonstrate the effectiveness of the proposed model by numerical simulations. The results show that the smaller the value of parameter p, the more difficult the epidemic spread is. The PR-SD strategy breaks long-range links and establishes as many short-range links as possible, which causes the network efficiency to decrease quickly and the propagation of the epidemic is restrained effectively.
作者 宋玉蓉 蒋国平 巩永旺
机构地区 College of Automation
出处 《Chinese Physics B》 SCIE EI CAS CSCD 2013年第4期63-69,共7页 中国物理B(英文版)
基金 Project supported by the Natural Science Foundation of Jiangsu Province, China (Grant No. BK2010526) the Specialized Research Fund for the Doctoral Program of Higher Education of China (Grant No. 20103223110003) the Ministry of Education Research in the Humanities and Social Sciences Planning Fund (Grant No. 12YJAZH120)
关键词 adaptive networks epidemic dynamics network dynamics cellular automata local-world reconnecting mechanism adaptive networks epidemic dynamics network dynamics cellular automata local-world reconnecting mechanism
分类号 O157.5 [理学—基础数学] R311 [医药卫生—基础医学]
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参考文献22

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同被引文献27

  • 1Li Xiang, Wang Xiaofan. Controlling the spreading in small-world evolving networks: stability, oscillation, and topology [ J ]. IEEE Trans on Automatic Control, 2006, 51 (3): 534-540.
  • 2Pastor-Satorras R, Vespignani A. hnmunization of complex networks [J]. Physical Review E, 2002, 65(3) : 106-126.
  • 3Cohen R, Havlin S, Ben-Avraham D. Efficient immunization strate- gies for computer networks and populations [ J ]. Physical Review Letters, 2003, 91 (24): 247901-247904.
  • 4Pastor-Satorras R, Vespignani A. Epidemics and immunization in scale free networks [ M ]//Handbook of Graphs and Networks: from the Genome to the Internet. 2005: 111-130.
  • 5Gross T, Blasius B. Adaptive coevolutionary networks : a review [ J ]. Journal of the Royal Society Interface, 2008, 5(20) : 259-271.
  • 6Gross T, D' Lima C J 13, Blasius B. Epidemic dynamics on an adap- tive network [ J ]. Physical Review Letters, 2006, 96 ( 20 ) : 208701 - 209600.
  • 7Shaw L B, Schwartz I B. Fluctuating epidemics on adaptive networks [J]. Physical Review E, 2008, 77(6) : 601-610.
  • 8Risau-Gusm6n S, Zanette D H. Contact switching as a control strate- gy for epidemic outbreaks [ J ]. Journal of Theoretical Biology, 2009, 257(1) : 52-60.
  • 9Shaw L B, Schwartz I B. Enhanced vaccine control of epidemics in adaptive networks[J]. Physical Review E, 2010, 81 (4): 557- 563.
  • 10Watts D J, Strogatz S H. Collective dynamics of ' small-world' net- works[J]. Nature,1998, 393(6684) : 409-410.

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Chinese Physics B
2013年 第4期

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