用于新冠疫情模型可靠且具竞争力的数学分析的最优控制策略。

Optimal control strategies for the reliable and competitive mathematical analysis of Covid-19 pandemic model.

作者信息

Butt Azhar Iqbal Kashif, Imran Muhammad, Chamaleen D B D, Batool Saira

机构信息

Department of Mathematics Government College University Lahore Pakistan.

Department of Mathematics and Statistics, College of Science King Faisal University Al-Ahsa Saudi Arabia.

出版信息

Math Methods Appl Sci. 2022 Aug 2. doi: 10.1002/mma.8593.

DOI:10.1002/mma.8593

PMID:36247229

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9538878/

Abstract

To understand dynamics of the COVID-19 disease realistically, a new SEIAPHR model has been proposed in this article where the infectious individuals have been categorized as symptomatic, asymptomatic, and super-spreaders. The model has been investigated for existence of a unique solution. To measure the contagiousness of COVID-19, reproduction number is also computed using next generation matrix method. It is shown that the model is locally stable at disease-free equilibrium point when and unstable for . The model has been analyzed for global stability at both of the disease-free and endemic equilibrium points. Sensitivity analysis is also included to examine the effect of parameters of the model on reproduction number . A couple of optimal control problems have been designed to study the effect of control strategies for disease control and eradication from the society. Numerical results show that the adopted control approaches are much effective in reducing new infections.

摘要

为了切实理解新冠肺炎疾病的动态变化，本文提出了一种新的SEIAPHR模型，其中将感染个体分为有症状、无症状和超级传播者。对该模型的唯一解的存在性进行了研究。为了衡量新冠肺炎的传染性，还使用下一代矩阵方法计算了再生数。结果表明，当时，该模型在无病平衡点处局部稳定，而当时不稳定。对该模型在无病平衡点和地方病平衡点处的全局稳定性进行了分析。还进行了敏感性分析，以检验模型参数对再生数的影响。设计了几个最优控制问题，以研究控制策略对疾病控制和从社会中根除疾病的效果。数值结果表明，所采用的控制方法在减少新感染方面非常有效。

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