Add to ORKGsummary:This paper proposes a deterministic model for the spread of an epidemic. We extend the classical Kermack–McKendrick model, so that a more general contact rate is chosen and a vaccination added. The model is governed by a differential equation (DE) for the time dynamics of the susceptibles, infectives and removals subpopulation. We present some conditions on the existence and uniqueness of a solution to the nonlinear DE. The existence of limits and uniqueness of maximum of infected individuals are also discussed. In the final part, simulations, numerical results and comparisons of the different vaccination strategies are presented
he continued reoccurrences of Ebola virus disease (EVD) among human population has given a great cau...
In this paper, the author proposes a new SEIRS model that generalizes several classical deterministi...
Federico S, Ferrari G, Torrente M-L. Optimal Vaccination in a SIRS Epidemic Model. Center for Mathem...
summary:This paper proposes a deterministic model for the spread of an epidemic. We extend the class...
Kermack-McKendrick model and its version with vaccination are presented. First, we introduce a model...
Mathematical modeling is an essential tool in epidemiology. Models are constructed to describe the s...
Abstract. We have proposed and analyzed a nonlinear mathematical model for the spread of carrier dep...
In this paper, a mathematical model based on COVID-19 is developed to study and manage disease outbr...
ABSTRACT. An epidemic model with Classical Kermack-Mckendrick incidence rate under a limited resourc...
The COVID-19 pandemic has led to numerous mathematical models for the spread of infection, the major...
The COVID-19 pandemic has led to numerous mathematical models for the spread of infection, the major...
Various kinds of deterministic models for the spread of infectious disease in populations have been ...
AbstractA new mathematical model for the transmission dynamics of a disease subject to the quarantin...
The aim of this paper is to show that a large class of epidemic models, with both demography and non...
Vaccination is the most effective method of preventing the spread of infectious diseases. In this ...
he continued reoccurrences of Ebola virus disease (EVD) among human population has given a great cau...
In this paper, the author proposes a new SEIRS model that generalizes several classical deterministi...
Federico S, Ferrari G, Torrente M-L. Optimal Vaccination in a SIRS Epidemic Model. Center for Mathem...
summary:This paper proposes a deterministic model for the spread of an epidemic. We extend the class...
Kermack-McKendrick model and its version with vaccination are presented. First, we introduce a model...
Mathematical modeling is an essential tool in epidemiology. Models are constructed to describe the s...
Abstract. We have proposed and analyzed a nonlinear mathematical model for the spread of carrier dep...
In this paper, a mathematical model based on COVID-19 is developed to study and manage disease outbr...
ABSTRACT. An epidemic model with Classical Kermack-Mckendrick incidence rate under a limited resourc...
The COVID-19 pandemic has led to numerous mathematical models for the spread of infection, the major...
The COVID-19 pandemic has led to numerous mathematical models for the spread of infection, the major...
Various kinds of deterministic models for the spread of infectious disease in populations have been ...
AbstractA new mathematical model for the transmission dynamics of a disease subject to the quarantin...
The aim of this paper is to show that a large class of epidemic models, with both demography and non...
Vaccination is the most effective method of preventing the spread of infectious diseases. In this ...
he continued reoccurrences of Ebola virus disease (EVD) among human population has given a great cau...
In this paper, the author proposes a new SEIRS model that generalizes several classical deterministi...
Federico S, Ferrari G, Torrente M-L. Optimal Vaccination in a SIRS Epidemic Model. Center for Mathem...