Mathematical Modelling of the Spatial Epidemiology of COVID-19 with Different Diffusion Coefficients

IF 1.4 Q2 MATHEMATICS, APPLIED

International Journal of Differential Equations Pub Date : 2022-10-19 DOI:10.1155/2022/7563111

B. Barnes, I. Takyi, Bright Emmanuel Owusu, Francis Ohene Boateng, Augustine Saahene, Emmanuel Saarah Baidoo, Jennifer Aduko Adombire

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引用次数: 1

Abstract

This paper addresses the discrepancy between model findings and field data obtained and how it is minimized using the binning smoothing techniques: means, medians, and boundaries. Employing both the quantitative and the qualitative methods to examine the complex pattern involved in COVID-19 transmission dynamics reveals model variation and provides a boundary signature for the potential of the disease’s future spread across the country. To better understand the main underlying factor responsible for the epidemiology of COVID-19 infection in Ghana, the continuous inflow of foreigners, both with and without the disease, was incorporated into the classical Susceptible-Exposed-Quarantined-Recovered SEIQR model, which revealed the spread of the COVID-19 by these foreigners. Also, the diffusion model provided therein gives a threshold condition for the spatial spread of the COVID-19 infection in Ghana. Following the introduction of a new method for the construction of the Lyapunov function for global stability of the nonlinear system of ODEs was observed, overcoming the problem of guessing for the Lyapunov function.

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新冠肺炎不同扩散系数空间流行病学的数学模型

本文解决了模型结果与获得的现场数据之间的差异，以及如何使用分形平滑技术:平均值、中位数和边界来最小化差异。采用定量和定性方法研究COVID-19传播动态的复杂模式，揭示了模型变化，并为该疾病未来在全国范围内传播的可能性提供了边界特征。为了更好地了解导致COVID-19感染在加纳流行的主要潜在因素，将外国人(无论是否患有该疾病)的持续流入纳入经典的易感-暴露-隔离-康复SEIQR模型，该模型揭示了这些外国人传播COVID-19的情况。本文建立的扩散模型给出了COVID-19感染在加纳空间传播的阈值条件。通过引入一种新的Lyapunov函数构造方法，观察了非线性ode系统的全局稳定性，克服了Lyapunov函数的猜测问题。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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