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Global dynamics for a class of reaction–diffusion multigroup SIR epidemic models with time fractional-order derivatives

Zhenzhen Lu, Yongguang Yu, Guojian Ren, Conghui Xu, Xiangyun Meng

2021Nonlinear Analysis Modelling and Control13 citationsDOIOpen Access PDF

Abstract

This paper investigates the global dynamics for a class of multigroup SIR epidemic model with time fractional-order derivatives and reaction–diffusion. The fractional order considered in this paper is in (0; 1], which the propagation speed of this process is slower than Brownian motion leading to anomalous subdiffusion. Furthermore, the generalized incidence function is considered so that the data itself can flexibly determine the functional form of incidence rates in practice. Firstly, the existence, nonnegativity, and ultimate boundedness of the solution for the proposed system are studied. Moreover, the basic reproduction number R0 is calculated and shown as a threshold: the disease-free equilibrium point of the proposed system is globally asymptotically stable when R0 ≤ 1, while when R0 > 1, the proposed system is uniformly persistent, and the endemic equilibrium point is globally asymptotically stable. Finally, the theoretical results are verified by numerical simulation.

Topics & Concepts

MathematicsReaction–diffusion systemEpidemic modelFractional calculusOrder (exchange)DiffusionApplied mathematicsStability theoryFractional Brownian motionClass (philosophy)Brownian motionBasic reproduction numberAnomalous diffusionFunction (biology)Statistical physicsMathematical analysisComputer scienceNonlinear systemPhysicsStatisticsInnovation diffusionSociologyArtificial intelligenceQuantum mechanicsThermodynamicsDemographyEconomicsPopulationBiologyEvolutionary biologyFinanceKnowledge managementMathematical and Theoretical Epidemiology and Ecology ModelsFractional Differential Equations SolutionsCOVID-19 epidemiological studies
Global dynamics for a class of reaction–diffusion multigroup SIR epidemic models with time fractional-order derivatives | Litcius