A machine learning approach to formation of earthquake categories using hierarchies of magnitude and consequence to guide emergency management

Data Science and Management Pub Date : 2023-06-28 DOI:10.1016/j.dsm.2023.06.005

Donald Douglas Atsa'am , Terlumun Gbaden , Ruth Wario

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引用次数: 0

Abstract

This study deployed k-means clustering to formulate earthquake categories based on magnitude and consequence, using global earthquake data spanning from 1900 to 2021. Based on patterns within the historical data, numeric boundaries were extracted to categorize the magnitude, deaths, injuries, and damage caused by earthquakes into low, medium, and high classes. Following a future earthquake incident, the classification scheme can be utilized to assign earthquakes into appropriate categories by inputting the magnitude, number of fatalities and injuries, and monetary estimates of total damage. The resulting taxonomy provides a means of classifying future earthquake incidents, thereby guiding the allocation and deployment of disaster management resources in proportion to the specific characteristics of each incident. Furthermore, the scheme can serve as a reference tool for auditing the utilization of earthquake management resources.

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一种机器学习方法，利用震级和后果的层次来形成地震类别，以指导应急管理

本研究利用1900年至2021年的全球地震数据，采用k-means聚类，根据震级和后果制定地震类别。根据历史数据中的模式，提取数字边界，将地震的震级、死亡、受伤和破坏分为低、中、高级别。在未来的地震事件发生后，分类方案可以通过输入震级、伤亡人数和总损失的货币估计来将地震划分为适当的类别。由此产生的分类法提供了一种对未来地震事件进行分类的方法，从而指导灾害管理资源的分配和部署，使之与每次事件的具体特征成比例。此外，该方案还可作为地震管理资源利用审计的参考工具。

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

Data Science and Management

CiteScore

7.50

自引率

0.00%

发文量