Détails Publication
Mathematical model of malaria transmission dynamics with distributed delay and a wide class of nonlinear incidence rates,
Discipline: Mathématiques
Auteur(s): KOUTOU Ousmane, TRAORE Bakary, SANGARE Boureima
Auteur(s) tagués: KOUTOU Ousmane
Renseignée par : KOUTOU Ousmane
Résumé

Generally, the infection process of most vector-borne diseases involves a latent period in both human hosts and vectors. With regards to other publications, Tian and Song have recently proposed an SIR-SI model to analyze the effects of the incubation period on a vector-borne disease with nonlinear transmission rate. But they were silent on the fact that the partially immune individuals are slightly infective to mosquitoes. So, by considering that the partially immune individuals remain slightly infective to mosquitoes, a similar work has been done in this paper for malaria global transmission dynamics following an SIRS-SI pattern. The basic reproduction ratio has been calculated using the next-generation matrix method. Furthermore, using the characteristic equations and inequality analytical techniques, conditions are given under which the system exhibits threshold behavior as follows: when R0 1 meaning that the disease will persist. Finally, some numerical simulations have been performed to illustrate our theoretical results.

Mots-clés

malaria transmission dynamics, delay differential equations, basic reproduction number, wide class of incidence rates, numerical simulations, limit cycles

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