A leader-followers game of emergency preparedness for adverse events

IF 0.4 Q4 MATHEMATICS, APPLIED

Mathematics in applied sciences and engineering Pub Date : 2021-01-22 DOI:10.5206/MASE/11093

M. Nahirniak, M. Cojocaru, T. Migot

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Abstract

Natural disasters occur across the globe, resulting in billions of dollars of damage each year. Effective preparation before a disaster can help to minimize damages, economic impact, and loss of human life. This paper uses a game theory framework to set up a leader-followers model for resource distribution to several geographic zones before an adverse event. The researchers model population members who may choose to prepare in advance of an event by acquiring supplies, whereas others may wait until the last minute. Failure to prepare in advance could result in a significant loss due to the chance that supplies may no longer be available. Numerical simulations are run to determine how the leader should distribute supplies to maximize the preparedness of the overall population. It was found that population size is a significant factor for supply distribution, but the behaviour of individuals within a zone is also important. Much of the current resource allocation research focuses on the logistics and economics of supply distribution, but this paper demonstrates that social aspects should also be considered.

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一种针对不利事件的应急准备的领导者-追随者游戏

自然灾害发生在全球各地，每年造成数十亿美元的损失。在灾难发生前进行有效的准备可以帮助减少损失、经济影响和人员损失。本文运用博弈论框架，建立了灾害发生前多个地理区域资源分配的领导-追随者模型。研究人员对群体成员进行了建模，他们可能会选择在事件发生前通过获取物资来做好准备，而其他人可能会等到最后一刻。如果事先不做好准备，可能会因为供应可能不再可用而导致重大损失。通过数值模拟来确定领导者应该如何分配物资，以最大限度地提高总体人口的准备程度。研究发现，种群规模是影响供应分布的重要因素，但区域内个体的行为也很重要。目前的资源配置研究大多集中在物流和供应分配的经济学上，但本文表明，社会方面也应该考虑。

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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