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Threshold Dynamics and Competitive Exclusion in a Virus Infection Model with General Incidence Function and Density-Dependent Diffusion

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  • Xiaosong Tang
  • Zhiwei Wang
  • Jianping Yang

Abstract

In this paper, we investigate single-strain and multistrain viral infection models with general incidence function and density-dependent diffusion subject to the homogeneous Neumann boundary conditions. For the single-strain viral infection model, by using the linearization method and constructing appropriate Lyapunov functionals, we obtain that the global threshold dynamics of the model is determined by the reproductive numbers for viral infection . For the multistrain viral infection model, we have discussed the competitive exclusion problem. If the reproduction number for strain is maximal and larger than one, the steady state corresponding to the strain is globally stable. Thus, competitive exclusion happens and all other strains die out except strain . Meanwhile, we can prove that the single-strain and multistrain viral infection models are well posed. Furthermore, numerical simulations are also carried out to illustrate the theoretical results, which is seldom seen in the relevant known literatures.

Suggested Citation

  • Xiaosong Tang & Zhiwei Wang & Jianping Yang, 2020. "Threshold Dynamics and Competitive Exclusion in a Virus Infection Model with General Incidence Function and Density-Dependent Diffusion," Complexity, Hindawi, vol. 2020, pages 1-20, April.
    • Handle: RePEc:hin:complx:4923856
    DOI: 10.1155/2020/4923856
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