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[1]石定琴,柯林,周金贵,等.带直接免疫的SIRS模型中疾病以2种途径传播的动力学分析[J].江西师范大学学报(自然科学版),2013,(06):637-640.
　SHI Ding-qin,KE Lin,ZHOU Jin-gui,et al.The Dynamical Analysis for Epidemic Transmission on an SIRS Model with Direct Immunization via Two Distinct Routes[J].Journal of Jiangxi Normal University:Natural Science Edition,2013,(06):637-640.
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带直接免疫的SIRS模型中疾病以2种途径传播的动力学分析()

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《江西师范大学学报》（自然科学版）[ISSN:1006-6977/CN:61-1281/TN]

卷:
期数:: 2013年06期

页码:: 637-640

栏目:

出版日期:: 2013-12-31

文章信息/Info

Title:: The Dynamical Analysis for Epidemic Transmission on an SIRS Model with Direct Immunization via Two Distinct Routes

作者:: 石定琴;柯林;周金贵;余荣忠; 九江学院理学院,江西九江,332005

Author(s):: SHI Ding-qin；KE Lin；ZHOU Jin-gui；YU Rong-zhong

关键词:: 传染阈值; 直接免疫; 2种途径

Keywords:: epidemic threshold; direct immunization; two distinct routes

分类号:: O157.5

文献标志码:: A

摘要:: 在带直接免疫的SIRS模型基础上,考虑疾病以2种途径进行传播.研究表明:流行病的传染阈值不仅与网络拓扑结构、直接免疫率、免疫丧失率和染病节点的传染能力有关,而且会受到2种传播途径在网络上的分布比例的影响.

Abstract:: Epidemic transmission on complex networks via two distinct routes is considered based on an SIRS model with direct immunization.By theoretical analysis,the epidemic threshold is not only concerned with the topology of networks,direct immunization rate,loss rate of immunity and infective capability of infected individual,but also impacted by the ratio of two routes of spreading epidemic.

参考文献/References:

[1] Newman M E J.The structure and function of complex networks [J].SIAM Review,2003,45(2):167-256.
[2] Boccaletti S,Latorab V,Moreno Y,et al.Complex networks:structure and dynamics [J].Physics Reports,2006,424(4/5):175-308.
[3] Funk S,Jansen V A A.Interacting epidemics on overlay networks [J].Phys Rev E,2010,81(3):118-128.
[4] Karrer B,Newman M E J.Competing epidemics on complex networks [J].Phys Rev E,2011,84(3):106-118.
[5] Xia Chengyi,Wang Zhen,Sanz J,et al.Effects of delayed recovery and nonumiform transmission on the spreading of diseases in complex networks [J].Physica A:Statistical Mechanics and its Applications,2013,392(7):1577-1585.
[6] Xia Chengyi,Wang Li,Sun Shiwen,et al.An SIR model with infection delay and propagation vector in complex networks [J].Nonlinear Dynamics,2012,69(3):927-934.
[7] Pastor-Satorras R,Vespignani A.Epidemic dynamics and endemic states in complex networks [J].Phys Rev E,2001,63(6):117-123.
[8] Pastor-Satorras R,Vespignani A.Epidemic spreading in scale-free networks [J].Phys Rev Lett,2001,86(14):3200-3208.
[9] Pastor-Satorras R,Vespignani A.Epidemic dynamics in finite size scale-free networks [J].Phys Rev,2002,65(3):108-125.
[10] Zhou Tao,Liu Jianguo,Bai Wenjie,et al.Behaviors of susceptible-infected epidemics on scale-free networks with identical infectivity [J].Phys Rev E,2006,74(5):109-117.
[11] Zhang Haifeng,Small M,Fu Xinchu.Global behavior of epidemic transmission on heterogeneous networks via two distinct routes [J].Nonlinear Biomedical Physics,2008,2(2):1-7.
[12] 夏承遗,刘忠信,陈增强,等.复杂网络上带有直接免疫的SIRS类传染模型研究 [J].控制与决策,2008,23(4):468-472.

备注/Memo

备注/Memo:: 江西省自然科学基金(20132BAB201012)；江西省教育厅科技(GJJ12617)；江西省教育厅青年科学基金(GJJ13714)

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更新日期/Last Update: 1900-01-01