International Academy of Physical Sciences

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Published: Mar 15, 2015

Keywords:

Mathematical model, human population, mosquito population, Larvivorous fish population

Ritesh Pandey

Department of Applied Sciences Shambhunath Institute of Engineering and Technology Allahabad, India

P. N. Pandey

Department of Mathematics University of Allahabad Allahabad, India

Abstract

In this paper, a nonlinear mathematical model for the control of vector borne diseases, like malaria is proposed and analyzed. In the
modeling process it is assumed that the mosquito population is controlled by using Larvivorous fish, which partially depends on the
larva of mosquito population. It is further assumed that the mosquito population grows logistically in the environment and its intrinsic growth rate is also affected by the human related activities. The equilibria of the model are obtained and their stability is discussed by using stability theory of differential equations. The threshold for the eradication of the disease, i.e. basic reproduction number is obtained. The analysis of the model shows that the growth rate in mosquito population due to human related activities has destabilizing effect on the system. Further numerical simulation is performed to verify the analytically obtained results.

How to Cite

1.

Ritesh Pandey, P. N. Pandey. Malaria Transmission and Biological Control with Human Related Activities: A Mathematical Modeling Approach. J. Int. Acad. Phys. Sci. [Internet]. 2015 Mar. 15 [cited 2024 May 3];19(1):35-50. Available from: https://www.iaps.org.in/journal/index.php/journaliaps/article/view/342

Issue

Vol. 19 No. 1 (2015): Table of Content

Section

Articles

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This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

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Announcement

Prof. P.N. Pandey Research Award

The Academy announced a research-based award on December 21, 2022 in memory of its founder and former General Secretary Prof. P.N. Pandey. The award, referred to as ‘Prof. P.N. Pandey Research Award’, will be given to the first author of the most promising and innovative research paper, published in ‘Journal of International Academy of Physical Sciences’(JIAPS). The selection cycle for the award paper will be started from the March 2023 issue of the JIAPS. Awardees will be given Rs. 25000/= along with an award certificate. The citation of the awardees will be published on the IAPS website. The awardee will also be given the opportunity to deliver the Award-Lecture at the International Conference of IAPS (CONIAPS).