Add to ORKGIn this work, we construct and analyze a nonlinear reactiondiffusion epidemiology model consisting of two integral-differential equations and an ordinary differential equation, which is suggested by various insect borne diseases, for example, Yellow Fever. We begin by defining a nonlinear auxiliary problem and establishing the existence and uniqueness of its solution via a priori estimates and a fixed point argument, from which we prove the existence and uniqueness of the classical solution to the analytic problem. Next, we develop a finite-difference method to approximate our model and perform some numerical experiments. We conclude with a brief discussion of some subsequent extensions. Copyright (C) 2011 John Wiley & Sons, Ltd
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A nonlinear mathematical model of differential equations with piecewise constant arguments is propos...
Diseases which are transmitted by vector mosquitoes are major health problems in many countries. Alt...
In this paper we analyse a two-strain compartmental dengue fever model that allows us to study the b...
We construct and analyze a nonlinear reaction-diffusion epidemiology model consisting of two integra...
In this work, we construct and analyze a nonlinear reaction-diffusion epidemiology model consisting ...
In this paper, a mathematical model consisting of the prey- predator involving infectious disease in...
In this dissertation, we studied mathematical models of infectious diseases that consist of ordinary...
We consider a system of nonlinear partial differential equations corresponding to a generalization o...
In this work, we consider two types of mosquito-born disease modeling. First, we develop an ordinary...
We construct and analyze a nonlocal global pandemic model that comprises a system of two nonlocal in...
Summary. Endemic infectious diseases for which infection confers permanent immunity are described by...
A deterministic mathematical model was formulated using non-linear ordinary differential equations t...
We propose an equilibrium analysis of a dynamical model of yellow fever transmission in the presence...
Flavescence dorée (FD) is a disease of grapevine transmitted by an insect vector, Scaphoideus titanu...
Modeling insights for epidemiological scenarios characterized by chaotic dynamics have been largely ...
A nonlinear mathematical model of differential equations with piecewise constant arguments is propos...
Diseases which are transmitted by vector mosquitoes are major health problems in many countries. Alt...
In this paper we analyse a two-strain compartmental dengue fever model that allows us to study the b...