作 者:Oluwatayo Michael Ogunmiloro
机构地区:[1]Department of Mathematics,Ekiti State University Ado Ekiti,Ekiti State,Nigeria
出 处:《International Journal of Modeling, Simulation, and Scientific Computing》2021年第5期193-209,共17页建模、仿真和科学计算国际期刊(英文)
摘 要:This article describes the mathematical model derivation describing river blindness dis�ease transmission in human and vector(blackflies)host population.The effect of incom�plete resistance to re-infection in human individuals who recovered from the disease after treatment but are still subjected to repeated exposures to infected blackflies bite is investigated.Also,the basic reproduction number(Rhb)is obtained and it is shown that if Rhb<1,the onchocerciasis-free equilibrium is locally and globally asymptotically stable.Also,if Rhb>1,the onchocerciasis-endemic equilibrium is globally asymptot�ically stable.Moreover,the Differential Transform Method(DTM)and Runge–Kutta fourth-order method is employed via the computational software Maple 18 to solve and obtain the approximate solutions of the model system equations,which showed that the numerical results favorably compare with each other.Simulations reveal that increase in biting and transmission rates leads to an increase of Rhb and incomplete resistance to re-infection due to consistent exposure to blackflies bites.Also,simulations of the approximate solutions of the model state equations are provided.
关 键 词:River blindness stability analysis reproduction number numerical methods
分 类 号:O17[理学—数学]
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