垂直传染脉冲免疫以及非单调发病率的传染病模型
Epidemic Model with Vertical Transmission and Pulse Vaccination and Non-Monotonic Incidence Rate
摘要:

本文介绍了一类垂直传染带脉冲免疫以及非单调发病率的SIRS传染病模型,首先利用Floquet定理,脉冲比较定理以及迭代法给出了无病周期解的全局渐近稳定的条件,得出当且时,无病平衡点是全局渐近稳定的结论。其次通过使用比较定理,证明了系统持续的充分条件。

Abstract: In this paper, we investigate an SIRS epidemic model with vertical transmission and pulse vaccination and non-monotonic incidence rate. First, we obtain the condition for which the disease-free periodic solution of the epidemic model is globally asymptotically stable when and by Floquet theorem, impulsive comparison theorem and iteration method. Second, permanence of this system is presented by comparison theorem.

文章引用:洪凤玲, 王霞, 闫卫平. 垂直传染脉冲免疫以及非单调发病率的传染病模型[J]. 应用数学进展, 2013, 2(2): 65-73. http://dx.doi.org/10.12677/AAM.2013.22009

参考文献

[1] H.-F. Huo, Z.-P. Ma. Dynamics of a delayed epidemic model with non-monotonic incidence rate. Communications in Nonlinear Science and Numerical Simulation, 2010, 15(2): 459-486.
[2] Y. Muroya, Y. Enatsu and Y. Nakata. Global stability of a delayed SIRS epidemic model with a non-monotonic incidence rate. Journal of Mathematical Analysis and Applications, 2011, 377(1): 1-14.
[3] R. Xu, Z. E. Ma. Global stability of a SIR epidemic model with nonlinear incidence rate and time delay. Nonlinear Analysis: Real World Applications, 2009, 10(5): 3175-3189.
[4] D. M. Xiao, S. G. Ruan. Global analysis of an epidemic model with nonmonotone incidence rate. Mathematical Biosciences, 2007, 208(2): 419-429.
[5] B. Shulgin, L. Stone and Z. Agur. Pulse vaccination strategy in the SIR epidemic model. Bulletin of Mathematical Biology, 1998, 60(6): 1123- 1148.
[6] L. Stone, B. Shulgin and Z. Agur. Theoretical examination of the pulse vaccination policy in the SIR epidemic model. Mathematical and Computer Modelling, 2000, 31(4-5): 207-215.
[7] S. J. Gao, L. S. Chen, J. J. Nieto and A. Torres. Analysis of a delayed epidemic model with pulse vaccination and saturation incidence. Vaccine, 2006, 24(35-36): 6037-6045.
[8] Y. C. Zhou, H. W. Lin. Stability of periodic solutions for an SIR model with pulse vaccination. Mathematical and Computer Modelling, 2003, 38: 299-308.
[9] Y. Song. Asymptotical behavior of SIR epidemic models with vertical transmission and Impulsive Vaccination. International Conference on Computer Application and System Modeling (ICCASM2010), Taiyuan, 22-24 October 2010: V1-92-V1-95.
[10] X. B. Zhang, H. F. Huo, H. Xiang and X. Y. Meng. An SIRS epidemic model with pulse vaccination and non-monotonic incidence rate. Nonlinear Analysis: Hybrid Systems, 2013, 8: 13-21.

为你推荐