Add to ORKGWe consider a system of non-linear differential equations describing the spread of an epidemic in two interacting populations. The model assumes that the epidemic spreads within the first population, which in turn acts as a reservoir of infection for the second population. Weexplore the conditions under which the epidemic is endemic in both populations and discuss the global asymptotic stability of the endemic equilibrium using a Lyapunov function and results established for asymptotically autonomous systems. We discuss monkeypox as an example of an emerging disease that can be modelled in this way and present some numerical results representing the model and its extensions
The goal of this paper is the establishment of the global asymptotic stability of the model SI with ...
In this thesis we consider an epidemic model with a constant removal rate of infective individuals i...
In this thesis we consider an epidemic model with a constant removal rate of infective individuals i...
We consider a system of non-linear differential equations describing the spread of an epidemic in tw...
In this research work, we study the global stability of the SIR model which describes the dynamics o...
An epidemic model with saturated incidence rate and vaccination is investigated. The model exhibits ...
International audienceWe introduce classes of differential susceptibility and infectivity epidemic m...
International audience—The goal of this paper is the establishment of the global asymptotic stabilit...
In this paper, we study two models models for the dynamics spread and transmission of cholera.For th...
A proper structure of mathematical model is required tounderstand the large size dynamics of the spr...
In this paper, a SEIV epidemic model with saturated incidence rate that incorporates polynomial inf...
A model with multiple disease stages is discussed; its main feature is that it considers a general i...
AbstractThe paper presents a rigorous mathematical analysis of a deterministic model, which uses a s...
AbstractA model with differential susceptibility, differential infectivity (DS–DI), and age of infec...
We proposed a mathematical model of infectious disease dynamics. The model is a system of first orde...
The goal of this paper is the establishment of the global asymptotic stability of the model SI with ...
In this thesis we consider an epidemic model with a constant removal rate of infective individuals i...
In this thesis we consider an epidemic model with a constant removal rate of infective individuals i...
We consider a system of non-linear differential equations describing the spread of an epidemic in tw...
In this research work, we study the global stability of the SIR model which describes the dynamics o...
An epidemic model with saturated incidence rate and vaccination is investigated. The model exhibits ...
International audienceWe introduce classes of differential susceptibility and infectivity epidemic m...
International audience—The goal of this paper is the establishment of the global asymptotic stabilit...
In this paper, we study two models models for the dynamics spread and transmission of cholera.For th...
A proper structure of mathematical model is required tounderstand the large size dynamics of the spr...
In this paper, a SEIV epidemic model with saturated incidence rate that incorporates polynomial inf...
A model with multiple disease stages is discussed; its main feature is that it considers a general i...
AbstractThe paper presents a rigorous mathematical analysis of a deterministic model, which uses a s...
AbstractA model with differential susceptibility, differential infectivity (DS–DI), and age of infec...
We proposed a mathematical model of infectious disease dynamics. The model is a system of first orde...
The goal of this paper is the establishment of the global asymptotic stability of the model SI with ...
In this thesis we consider an epidemic model with a constant removal rate of infective individuals i...
In this thesis we consider an epidemic model with a constant removal rate of infective individuals i...