GLOBAL STABILITY OF SIRS EPIDEMIC MODELS WITH A CLASS OF NONLINEAR INCIDENCE RATES AND DISTRIBUTED DELAYS 被引量：6

GLOBAL STABILITY OF SIRS EPIDEMIC MODELS WITH A CLASS OF NONLINEAR INCIDENCE RATES AND DISTRIBUTED DELAYS

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摘要 In this article, we establish the global asymptotic stability of a disease-free equilibrium and an endemic equilibrium of an SIRS epidemic model with a class of nonlin- ear incidence rates and distributed delays. By using strict monotonicity of the incidence function and constructing a Lyapunov functional, we obtain sufficient conditions under which the endemic equilibrium is globally asymptotically stable. When the nonlinear inci- dence rate is a saturated incidence rate, our result provides a new global stability condition for a small rate of immunity loss. In this article, we establish the global asymptotic stability of a disease-free equilibrium and an endemic equilibrium of an SIRS epidemic model with a class of nonlin- ear incidence rates and distributed delays. By using strict monotonicity of the incidence function and constructing a Lyapunov functional, we obtain sufficient conditions under which the endemic equilibrium is globally asymptotically stable. When the nonlinear inci- dence rate is a saturated incidence rate, our result provides a new global stability condition for a small rate of immunity loss.

作者 Yoichi Enatsu Yukihiko Nakata Yoshiaki Muroya

机构地区 Department of Pure and Applied Mathematics Basque Center for Applied Mathematics Department of Mathematics

出处《Acta Mathematica Scientia》 SCIE CSCD 2012年第3期851-865,共15页 数学物理学报（B辑英文版）

基金 supported in part by JSPS Fellows,No.237213 of Japan Society for the Promotion of Science to the first author the Grant MTM2010-18318 of the MICINN,Spanish Ministry of Science and Innovation to the second author Scientific Research (c),No.21540230 of Japan Society for the Promotion of Science to the third author

关键词 SIRS epidemic model nonlinear incidence rate global asymptotic stability distributed delays Lyapunov functional SIRS epidemic model nonlinear incidence rate global asymptotic stability distributed delays Lyapunov functional

分类号 O175.13 [理学—基础数学]

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参考文献19

1Beretta E, Takeuchi Y. Convergence results in SIR epidemic models with varying population size. Nonlinear Anal, 1997, 28:1909-1921.
2Capasso V, Serio G. A generalization of the Kermack-McKendrick deterministic epidemic model. Math Biosci, 1978, 42:43-61.
3Enatsu Y, Nakata Y, Muroya Y. Global stability of SIR epidemic models with a wide class of nonlinear incidence rates and distributed delays. Discrete and Continuous Dynamical Systems, 2011, 15B: 61-74.
4Glass K, Xia Y, Grenfell B T. Interpreting time-series analyses for continuous-time biological models- measles as a case study. J Theor Biol, 2003, 2:19-25.
5Hale J K. Theory of Functional Differential Equations. Heidelberg: Springer-Verlag, 1977.
6Huang G, Takeuchi Y, Ma W, Wei D. Global stability for delay SIR and SEIR epidemic models with nonlinear incidence rate. Bull Math Biol, 2010, 72:1192-1207.
7Huo H F, Ma Z P. Dynamics of a delayed epidemic model with non-monotonic incidence rate. Commun Nonlinear Sci Numer Simulat, 2010, 15:459-468.
8Jin Y, Wang W, Xiao S. An SIRS model with a nonlinear incidence rate. Chaos, Solitons and Fractals, 2007, 34:1482-1497.
9Korobeinikov A, Maini P K. Nonlinear incidence and stability of infectious disease models. Math Med Biol, 2005, 22:113-128.
10Korobeinikov A. Lyapunov functions and global stability for SIR and SIRS epidemiological models with non-linear transmission. Bull Math Biol, 2006, 68:615-626.

同被引文献48

1Yuqiang Feng,Shougui Li (School of Science,Wuhan University of Science and Technology,Wuhan 430065,Hubei Province Key Laboratory of Systems Science in Metallurgical Process,Wuhan 430065).EXISTENCE OF POSITIVE PERIODIC SOLUTIONS TO A SECOND-ORDER DIFFERENTIAL INCLUSION[J].Annals of Differential Equations,2012,28(1):26-31. 被引量：1
2Lili Gao (Dept.of Math.and Physics,Bengbu College,Bengbu 233000,Anhui) Lianglong Wang (School of Math.and Computing Science,Anhui University,Hefei 230039).MULTIPLE PERIODIC SOLUTIONS TO SECOND ORDER FUNCTIONAL DIFFERENTIAL EQUATION WITH INFINITE DELAY[J].Annals of Differential Equations,2012,28(1):32-37. 被引量：2
3黄玉梅.具HollingⅡ类功能反应的时滞扩散模型的全局稳定性[J].生物数学学报,2006,21(3):370-376. 被引量：26
4Wang S, Ye S. Textbook of medical microbiology and parasitology[M]. Science Press, Beijing, 2006.
5Diekmann O, Heesterbeek J A P, Metz J A J. On the defination and the computation of the basic reproduction ratio R0 in the models for infectious disease in heterogeneous populations[J]. J Math Biol, 1990(28): 365-382.
6van den Driessche P, Watmough J. Reproduction numbers and sub-threshold endemic equilibria for compartmental models of disease transmission[J]. Math. Biosci. 180 (2002) 29-48.
7HETHCOTE H W,MA Z E,LIAO S B.Effects of quarantine in six endemic models for infectious diseases[ J ].Mathematical Biosciences,2002,180(1/2):141-160.
8LIPSITCH M,COHEN T,COOPER B,et al.Transmission dynamics and control of severe acute respiratory syndrome [ J ].Science,2003,300(5627):1966-1970.
9LLOYD-SMITH J O,GALVANI A P,GETZ W M.Curtailing transmission of severe acute respiratory syndrome within a community and its hospital[J].Proceedings of the Royal Society B:Biological Sciences,2003,270(1528):1979-1989.
10MENA-LORCA J,HETHCOTE H W.Dynamic models of infectious diseases as regulators of population sizes[ J ].Journal of Mathematical Biology,1992,30(7):693-716.

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2杜守洪,王蕾,张学良,王凯.一类具有饱和发生率的包虫病传播模型研究[J].数学的实践与认识,2013,43(20):269-273. 被引量：3
3杨俊仙,徐丽.一类具非线性发生率和时滞的SIQS传染病模型的全局稳定性[J].山东大学学报（理学版）,2014,49(5):67-74. 被引量：13
4杨俊仙,闫萍.一类具饱和发生率的时滞SEIR传染病模型的分析[J].中山大学学报（自然科学版）,2015,54(3):51-55. 被引量：8
5雷鸣,姜元政.Global Stability for a Diffusive System with Time Delay and Functional Response[J].Journal of Donghua University(English Edition),2015,32(2):272-276.
6翟昌盛.Levy噪声对随机非线性SIRS流行病模型渐近行为的影响[J].兰州理工大学学报,2015,41(6):148-155.

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4程晓云,胡志兴.一类具有Logistic增长的SIQS传染病模型[J].西安文理学院学报（自然科学版）,2016,19(4):26-30. 被引量：2
5刘娟.一类时滞SIQS传染病模型的Hopf分支[J].北华大学学报（自然科学版）,2016,17(5):561-565. 被引量：4
6马飞,姚兵.双优无标度网络模型[J].中山大学学报（自然科学版）,2017,56(1):85-92. 被引量：6
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8雷学红,许云霞.具有时滞的SIR计算机病毒模型的稳定性分析[J].科技视界,2017(5):46-47. 被引量：1
9刘娟,张鑫.一类时滞SIQR传染病模型的稳定性[J].吉林大学学报（理学版）,2017,55(6):1477-1480. 被引量：5
10童姗姗,朱玉清,牛玉俊,李贞旭.具有庇护所和收获的SIS模型的全局稳定性分析[J].中北大学学报（自然科学版）,2017,38(5):524-530.

1翟昌盛.Levy噪声对随机非线性SIRS流行病模型渐近行为的影响[J].兰州理工大学学报,2015,41(6):148-155.
2刘宣亮.一类SIRS流行病模型可至少存在两个极限环[J].生物数学学报,1999,14(2):141-144. 被引量：3
3高海音,刘丽名.恢复类中具有分布时滞的一类传染病模型研究[J].长春大学学报,2006,16(8):5-9. 被引量：2
4胡志兴,王辉,管克英.具有非线性接触率和时滞的SIRS流行病模型[J].应用数学学报,1999,22(1):10-16. 被引量：13
5魏凤英,陈芳香.具有饱和发生率的随机SIRS流行病模型的渐近行为[J].系统科学与数学,2016,36(12):2444-2453. 被引量：3
6Qiuying Li, Fengqin Zhang (Dept. of Applied Math., Yuncheng University, Yuncheng 044000, Shanxi).PERMANENCE OF A SIRS EPIDEMIC MODEL WITH IMPULSIVE VACCINATION AND DISTRIBUTED DELAYS[J].Annals of Differential Equations,2010,26(3):277-283.
7朱春娟,王美娟,孙凯玲.一类具非线性接触率且具有免疫接种的SIRS模型[J].上海理工大学学报,2010,32(1):17-22.
8王世飞,王娟,王海霞.具有接种疫苗年龄结构的SIRS流行病模型分析[J].信阳师范学院学报（自然科学版）,2007,20(4):395-398. 被引量：2
9YOICHI ENATSU,YOSHIAKI MUROYA.A SIMPLE DISCRETE-TIME ANALOGUE PRESERVING THE GLOBAL STABILITY OF A CONTINUOUS SIRS EPIDEMIC MODEL[J].International Journal of Biomathematics,2013,6(2):1-17.
10刘军军,闫萍,白江红.具有年龄结构的SIRS流行病模型的分析[J].石河子大学学报（自然科学版）,2011,29(1):120-124. 被引量：2

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GLOBAL STABILITY OF SIRS EPIDEMIC MODELS WITH A CLASS OF NONLINEAR INCIDENCE RATES AND DISTRIBUTED DELAYS 被引量：6

参考文献19

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