A Hybrid Mathematical Model for an Optimal Border Closure Policy During a Pandemic

IF 1.6 4区计算机科学 Q3 AUTOMATION & CONTROL SYSTEMS International Journal of Applied Mathematics and Computer Science Pub Date : 2023-12-01 DOI:10.34768/amcs-2023-0042

T. Lazebnik, Labib Shami, S. Bunimovich-Mendrazitsky

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Abstract

Abstract During a global health crisis, a country’s borders are a weak point through which carriers from countries with high morbidity rates can enter, endangering the health of the local community and undermining the authorities’ efforts to prevent the spread of the pathogen. Therefore, most countries have adopted some level of border closure policies as one of the first steps in handling pandemics. However, this step involves a significant economic loss, especially for countries that rely on tourism as a source of income. We developed a pioneering model to help decision-makers determine the optimal border closure policies during a health crisis that minimize the magnitude of the outbreak and maximize the revenue of the tourism industry. This approach is based on a hybrid mathematical model that consists of an epidemiological sub-model with tourism and a pandemic-focused economic sub-model, which relies on elements from the field of artificial intelligence to provide policymakers with a data-driven model for a border closure strategy for tourism during a global pandemic.

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大流行病期间最佳边境关闭政策的混合数学模型

摘要在全球卫生危机期间，一个国家的边境是一个薄弱环节，来自高发病率国家的带菌者可能通过边境进入，从而危及当地社区的健康，并破坏当局防止病原体传播的努力。因此，大多数国家都采取了某种程度的边境关闭政策，作为处理大流行病的第一步。然而，这一步骤会带来巨大的经济损失，尤其是对于依赖旅游业作为收入来源的国家而言。我们开发了一个开创性的模型，帮助决策者在健康危机期间确定最佳的边境关闭政策，从而最大限度地降低疫情爆发的规模，并最大限度地增加旅游业的收入。这种方法基于一个混合数学模型，该模型由一个包含旅游业的流行病学子模型和一个以大流行病为重点的经济子模型组成，它依赖于人工智能领域的元素，为决策者提供了一个在全球大流行病期间旅游业边境关闭战略的数据驱动模型。

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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来源期刊

International Journal of Applied Mathematics and Computer Science 工程技术-计算机：人工智能

CiteScore

4.10

自引率

21.10%

发文量

审稿时长

4.2 months

期刊介绍： The International Journal of Applied Mathematics and Computer Science is a quarterly published in Poland since 1991 by the University of Zielona Góra in partnership with De Gruyter Poland (Sciendo) and Lubuskie Scientific Society, under the auspices of the Committee on Automatic Control and Robotics of the Polish Academy of Sciences. The journal strives to meet the demand for the presentation of interdisciplinary research in various fields related to control theory, applied mathematics, scientific computing and computer science. In particular, it publishes high quality original research results in the following areas: -modern control theory and practice- artificial intelligence methods and their applications- applied mathematics and mathematical optimisation techniques- mathematical methods in engineering, computer science, and biology.