Effect of quarantine and vaccination in a pandemic situation: a mathematical modelling approach

Journal of Mathematical Analysis and Modeling Pub Date : 2021-12-30 DOI:10.48185/jmam.v2i3.318

D. S. A. A. Reza, Md. Noman Billah, Sharmin Sultana Shanta

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引用次数: 3

Abstract

When a pandemic occurs, it can cost fatal damages to human life. Therefore, it is important to understand the dynamics of a global pandemic in order to find a way of prevention. This paper contains an empirical study regarding the dynamics of the current COVID-19 pandemic. We have formulated a dynamic model of COVID-19 pandemic by subdividing the total population into six different classes namely susceptible, asymptomatic, infected, recovered, quarantined, and vaccinated. The basic reproduction number corresponding to our model has been determined. Moreover, sensitivity analysis has been conducted to find the most important parameters which can be crucial in preventing the outbreak. Numerical simulations have been made to visualize the movement of population in different classes and specifically to see the effect of quarantine and vaccination processes. The findings from our model reveal that both vaccination and quarantine are important to curtail the spread of COVID-19 pandemic. The present study can be effective in public health sectors for minimizing the burden of any pandemic.

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大流行情况下检疫和疫苗接种的效果:数学建模方法

当大流行发生时，它可能对人类生命造成致命的损害。因此，重要的是要了解全球流行病的动态，以便找到预防方法。本文对当前COVID-19大流行的动态进行了实证研究。我们建立了COVID-19大流行的动态模型，将总人口细分为易感人群、无症状人群、感染人群、康复人群、隔离人群和接种人群6个不同的类别。与我们的模型相对应的基本复制数已经确定。此外，还进行了敏感性分析，以找到对预防疫情至关重要的最重要参数。已经进行了数值模拟，以可视化不同类别的人口流动，特别是观察检疫和疫苗接种过程的效果。我们模型的研究结果表明，疫苗接种和隔离对于遏制COVID-19大流行的传播都很重要。本研究可对公共卫生部门有效，以尽量减少任何流行病的负担。

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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Journal of Mathematical Analysis and Modeling

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