Iterative method for the numerical solution of optimal control model for mosquito and insecticide

Journal of the Nigerian Society of Physical Sciences Pub Date : 2024-04-23 DOI:10.46481/jnsps.2024.1965
S. Adamu, O. Aduroja, A. S. Onanaye, M. R. Odekunle, Pankaj Thakur
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Abstract

A linear multistep method is transformed into an iterative method based on Patade and Bhalekar's technique for the numerical solution of the optimal control problem modeled for mosquito and insecticide management using forward-backward sweep methods via Pontryagin's principle. Stability and convergence analysis of the iterative method are carried out, and it is found to be stable, convergent, and of order four. Results obtained by the method clearly show that the population of mosquitoes can be minimized to a large extent using the new iterative method while reducing the harmful effects of the insecticide, subsequently reducing the spread of malaria.
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蚊虫和杀虫剂优化控制模型数值求解的迭代法
基于 Patade 和 Bhalekar 的技术,将线性多步法转化为迭代法,通过 Pontryagin 原理,用前向后扫方法对蚊虫和杀虫剂管理的最优控制问题模型进行数值求解。对迭代法进行了稳定性和收敛性分析,发现该方法是稳定、收敛和四阶的。该方法得到的结果清楚地表明,使用新的迭代方法可以在很大程度上减少蚊子数量,同时降低杀虫剂的有害影响,从而减少疟疾的传播。
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Journal of the Nigerian Society of Physical Sciences
Journal of the Nigerian Society of Physical Sciences
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