© 2020 SERSC. Malaria is a disease caused by the protozoa parasite of the genus plasmodium and transmitted through the bite of the female Anopheles sp. Here in this article, we construct a compartmental epidemic model SIS-SI-B to describe the spread of malaria considering three type of interventions, such as intervention of treatment, fumigation, and biolarvicides. Equilibrium analysis and next-generation matrix approach conducted to find the basic reproduction of the model. This analysis important to be done to understand the long-time behavior of the interventions. Sensitivity analysis of ℛ0 shows that intervention of fumigation is more effective to reduce ℛ0 which means can reduce the number of infected individuals much better rather than treatment intervention. Numerical simulation regarding the autonomous model for some scenarios are given to illustrate possible scenario that might appear in the field.
|Number of pages||10|
|Journal||International Journal of Advanced Science and Technology|
|Issue number||7 Special Issue|
|Publication status||Published - 14 Apr 2020|
- Basic reproduction number
- Equilibrium point
Habibah, S., Aldila, D., Giyarti, W., Dumbela, P. A., & Handari, B. D. (2020). Analyzing the impact of treatment, fumigation, and biolarvicides intervention on malaria control program. International Journal of Advanced Science and Technology, 29(7 Special Issue), 3685-3694.