Yawo Ezunkpe, Cynthia T. Nnolum, Rachidi B. Salako, Shuwen Xue
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Dynamics of solutions to a multi-patch epidemic model with a saturation incidence mechanism
This study examines the behavior of solutions in a multi-patch epidemic model
that includes a saturation incidence mechanism. When the fatality rate due to
the disease is not null, our findings show that the solutions of the model tend
to stabilize at disease-free equilibria. Conversely, when the disease-induced
fatality rate is null, the dynamics of the model become more intricate.
Notably, in this scenario, while the saturation effect reduces the basic
reproduction number $\mathcal{R}_0$, it can also lead to a backward bifurcation
of the endemic equilibria curve at $\mathcal{R}_0=1$. Provided certain
fundamental assumptions are satisfied, we offer a detailed analysis of the
global dynamics of solutions based on the value of $\mathcal{R}_0$.
Additionally, we investigate the asymptotic profiles of endemic equilibria as
population dispersal rates tend to zero. To support and illustrate our
theoretical findings, we conduct numerical simulations.
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