Analysis of communities of countries with similar dynamics of the COVID-19 pandemic evolution

IF 1.1 Q3 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Journal of Dynamics and Games Pub Date : 2021-01-20 DOI:10.1101/2021.01.18.21250050

E. Alvarez, J. Brida, E. Limas, L. Rosich

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引用次数: 0

Abstract

This work addresses the spread of the coronavirus through a non-parametric approach, with the aim of identifying communities of countries based on how similar their evolution of the disease is. The analysis focuses on the number of daily new COVID-19 cases per ten thousand people during a period covering at least 250 days after the confirmation of the tenth case. Dynamic analysis is performed by constructing Minimal Spanning Trees (MST) and identifying groups of similarity in contagions evolution in 95 time windows of a 150-day amplitude that moves one day at a time. The number of times countries belonged to a similar performance group in constructed time windows was the intensity measure considered. Groups' composition is not stable, indicating that the COVID-19 evolution needs to be treated as a dynamic problem in the context of complex systems. Three communities were identified by applying the Louvain algorithm. Identified communities analysis according to each country's socioeconomic characteristics and variables related to the disease sheds light on whether there is any suggested course of action. Even when strong testing and tracing cases policies may be related with a more stable dynamic of the disease, results indicate that communities are conformed by countries with diverse characteristics. The best option to counteract the harmful effects of a pandemic may be having strong health systems in place,with contingent capacity to deal with unforeseen events and available resources capable of a rapid expansion of its capacity.

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分析具有类似COVID-19大流行演变动态的国家社区

这项工作通过非参数方法解决冠状病毒的传播问题，目的是根据疾病演变的相似程度确定国家社区。分析的重点是在确认第10例病例后至少250天内，每万人每天新增COVID-19病例数。动态分析是通过构建最小生成树(MST)来进行的，并在每次移动一天的150天振幅的95个时间窗口中识别传染进化中的相似性组。在构建的时间窗口中，国家属于类似绩效组的次数是考虑的强度衡量标准。群体构成不稳定，表明COVID-19的演变需要作为复杂系统背景下的动态问题来处理。应用Louvain算法对三个群落进行了识别。根据每个国家的社会经济特征和与疾病相关的变量对已确定的社区进行分析，有助于确定是否有任何建议的行动方案。即使强有力的检测和追踪病例政策可能与更稳定的疾病动态有关，结果表明，社区与具有不同特征的国家相一致。抵消大流行有害影响的最佳选择可能是拥有强大的卫生系统，具备应对不可预见事件的应急能力和能够迅速扩大其能力的现有资源。

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

Journal of Dynamics and Games MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-

CiteScore

2.00

自引率

0.00%

发文量

期刊介绍： The Journal of Dynamics and Games (JDG) is a pure and applied mathematical journal that publishes high quality peer-review and expository papers in all research areas of expertise of its editors. The main focus of JDG is in the interface of Dynamical Systems and Game Theory.