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Mathematical analysis of a vaccination epidemic model with nonlocal diffusion

Soufiane Bentout, Salih Djilali, Toshikazu Kuniya, Jinliang Wang

2023Mathematical Methods in the Applied Sciences22 citationsDOIOpen Access PDF

Abstract

We study the global dynamics of a susceptible‐vaccinated‐infected‐recovered model that incorporates nonlocal diffusion. By identifying the basic reproduction number of the model, we obtain the following threshold‐type results: (i) If , then the epidemic becomes extinct in the sense that the infection‐free equilibrium is globally attractive; (ii) if and the diffusion coefficients are the same for all classes, then the epidemic persists in the sense that the system is uniformly persistent; and (iii) if , the diffusion coefficients for susceptible, and the vaccinated classes are zero, then the system admits a unique endemic equilibrium, and the omega‐limit set is included in the singleton of the endemic equilibrium. Our results show that is an essential value for determining global epidemic dynamics in our model.

Topics & Concepts

Epidemic modelBasic reproduction numberMathematicsDiffusionLimit (mathematics)Applied mathematicsZero (linguistics)Mathematical economicsSingletonStatistical physicsMathematical analysisDemographyPhysicsBiologyPopulationGeneticsSociologyPregnancyPhilosophyLinguisticsThermodynamicsMathematical and Theoretical Epidemiology and Ecology ModelsEvolution and Genetic DynamicsCOVID-19 epidemiological studies
Mathematical analysis of a vaccination epidemic model with nonlocal diffusion | Litcius