A Delayed Mathematical Model to break the life cycle of Anopheles Mosquito

A Delayed Mathematical Model to break the life cycle of Anopheles Mosquito

In this paper, we propose a delayed mathematical model to break the life cycle of anopheles mosquito at the larva stage by incorporating a time delay τ at the larva stage that accounts for the period of growth or development to pupa. We prove local stability of the system’s equilibrium and find the ...

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Bibliographic Details
Main Authors: Muhammad A. Yau, Bootan Rahman
Format: Article
Language:English
Published: Accademia Piceno Aprutina dei Velati 2016-12-01
Series:Ratio Mathematica
Subjects:
Delayed model
Anopheles mosquito
Malaria Control
Hopf bifurcation
Larva
Stability analysis
Online Access:http://eiris.it/ojs/index.php/ratiomathematica/article/view/319
Description
Summary:In this paper, we propose a delayed mathematical model to break the life cycle of anopheles mosquito at the larva stage by incorporating a time delay τ at the larva stage that accounts for the period of growth or development to pupa. We prove local stability of the system’s equilibrium and find the critical values for Hopf bifurcation to occur. Also, we find that the system’s equilibrium undergoes stability switching from stable to periodic to unstable and vice versa when the time delay τ crosses the imaginary axis from the left half plane to the right half plane in the (Re,Im) plane. Finally, we perform some numerical simulations and the results agree well with the analytical analysis. This is the first time such a model is proposed.
ISSN:1592-7415
2282-8214

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