We propose a mathematical model for malaria with age-heterogeneous biting rate from mosquitos. The existence of the model, the local behavior of the disease free equilibrium are explored. Furthermore the model is extended to an optimal control problem and the corresponding adjoint equations and optimality conditions are derived. Age dependent parameter values are estimated and numerical simulations are carried out for the model. The new model better accounts for difference in biting rates of mosquitos to different age groups, and improvements in stability to the explicit algorithm. The optimal control is also shown to depend on the age distribution of the biting rate
An age-structured (children and adults) model for the transmission dynamics of malaria with asymptom...
A series of models of malaria-mosquito-human interactions using the Lumped Age-Class technique of Gu...
In this study, we proposed and analyzed the optimal control and cost-effectiveness strategies for ma...
We propose a mathematical model for malaria with age-heterogeneous biting rate from mosquitos. The e...
With malaria still prevalent and considered to be one of the most devastating infectious diseases in...
Understanding the dynamics of an infectious disease, such as malaria, helps us to reduce the number ...
Mathematical models have been used to provide an explicit framework for understanding malaria transm...
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 Internati...
Malaria is a disease which is transmitted through the bite of an infected Anopheles mosquito. Accord...
In this paper we study the effect of vaccination control, medical treatment and spraying to malaria ...
Malaria is an infectious disease, transmitted between humans through mosquito bites, that kills abou...
A malaria model with differential susceptibility is analyzed using the optimal control technique. In...
Malaria is a deadly disease transmitted to humans through the bite of infected female mosquitoes. In...
Abstract A series of models of malaria-mosquito-human interactions using the Lumped Age-Class techni...
We perform sensitivity analyses on a mathematical model of malaria transmission to determine the rel...
An age-structured (children and adults) model for the transmission dynamics of malaria with asymptom...
A series of models of malaria-mosquito-human interactions using the Lumped Age-Class technique of Gu...
In this study, we proposed and analyzed the optimal control and cost-effectiveness strategies for ma...
We propose a mathematical model for malaria with age-heterogeneous biting rate from mosquitos. The e...
With malaria still prevalent and considered to be one of the most devastating infectious diseases in...
Understanding the dynamics of an infectious disease, such as malaria, helps us to reduce the number ...
Mathematical models have been used to provide an explicit framework for understanding malaria transm...
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 Internati...
Malaria is a disease which is transmitted through the bite of an infected Anopheles mosquito. Accord...
In this paper we study the effect of vaccination control, medical treatment and spraying to malaria ...
Malaria is an infectious disease, transmitted between humans through mosquito bites, that kills abou...
A malaria model with differential susceptibility is analyzed using the optimal control technique. In...
Malaria is a deadly disease transmitted to humans through the bite of infected female mosquitoes. In...
Abstract A series of models of malaria-mosquito-human interactions using the Lumped Age-Class techni...
We perform sensitivity analyses on a mathematical model of malaria transmission to determine the rel...
An age-structured (children and adults) model for the transmission dynamics of malaria with asymptom...
A series of models of malaria-mosquito-human interactions using the Lumped Age-Class technique of Gu...
In this study, we proposed and analyzed the optimal control and cost-effectiveness strategies for ma...
.jpg%3Fwidth%3D300&w=3840&q=75)
Add to ORKG