Add to ORKGWe present a time-dependent HBV epidemic model with both prophylactic and therapeutic vaccination. This epidemic model is investigated for different classes of infectious diseases. Mathematical analyses are carried out, that determines the positivity of solution and an optimal control approach is applied in order to find the best way to fight the disease. An optimal control strategy in the form of vaccination, and to minimize or eradicate of mother to child transmission, is used. The study concluded that both prophylactic and therapeutic vaccination is an efficient way to curb the epidemic
The Susceptible-Infected-Recovered (SIR) model for the spread of an infectious disease in a populati...
The aim of this note is to present the necessary optimality conditions for a model (in closed popula...
To define a vaccination policy and antiviral treatment against the spreading of viral infections a n...
Abstract Infection of hepatitis B virus (HBV) is a global health problem. We provide the study about...
In this study, we formulate a model for hepatitis B virus with control strategies of newborn vaccina...
Combination antiviral drug therapy improves the survival rates of patients chronically infected with...
An optimal control problem for a mathematical model of efficiency of antiviral therapy in hepatitis ...
In this model we study the dynamics and control of hepatitis B virus HBV infection which is a major ...
Mathematical formulation of a stochastic hepatitis B virus (HBV) model with the application of optim...
We investigate the optimal vaccination and screening strategies to minimize human papillomavirus (HP...
Hepatitis B is a global threat as over a billion people have been infected and about 300 million peo...
In this paper, we propose a fractional optimal control model of anti-HBV infection based on saturati...
This work examines optimum vaccination strategies for childhood illnesses (such as chicken pox, mump...
Optimal control for infectious diseases has received increasing attention over the past few decades....
In this work, dynamics between uninfected cells, HBV infected cells, HDV infected cells and HBV-HDV ...
The Susceptible-Infected-Recovered (SIR) model for the spread of an infectious disease in a populati...
The aim of this note is to present the necessary optimality conditions for a model (in closed popula...
To define a vaccination policy and antiviral treatment against the spreading of viral infections a n...
Abstract Infection of hepatitis B virus (HBV) is a global health problem. We provide the study about...
In this study, we formulate a model for hepatitis B virus with control strategies of newborn vaccina...
Combination antiviral drug therapy improves the survival rates of patients chronically infected with...
An optimal control problem for a mathematical model of efficiency of antiviral therapy in hepatitis ...
In this model we study the dynamics and control of hepatitis B virus HBV infection which is a major ...
Mathematical formulation of a stochastic hepatitis B virus (HBV) model with the application of optim...
We investigate the optimal vaccination and screening strategies to minimize human papillomavirus (HP...
Hepatitis B is a global threat as over a billion people have been infected and about 300 million peo...
In this paper, we propose a fractional optimal control model of anti-HBV infection based on saturati...
This work examines optimum vaccination strategies for childhood illnesses (such as chicken pox, mump...
Optimal control for infectious diseases has received increasing attention over the past few decades....
In this work, dynamics between uninfected cells, HBV infected cells, HDV infected cells and HBV-HDV ...
The Susceptible-Infected-Recovered (SIR) model for the spread of an infectious disease in a populati...
The aim of this note is to present the necessary optimality conditions for a model (in closed popula...
To define a vaccination policy and antiviral treatment against the spreading of viral infections a n...