A novel taxonomy of natural disasters based on casualty and consequence using hierarchical clustering

IF 0.4 Q4 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE International Journal of Data Mining Modelling and Management Pub Date : 2023-01-01 DOI:10.1504/ijdmmm.2023.134591

Donald Douglas Atsa', N.A. am, Frank Adusei Mensah, Oluwafemi Samson Balogun, Temidayo Oluwatosin Omotehinwa, Oluwaseun Alexander Dada, Richard Osei Agjei, Samuel Nii Odoi Devine

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Abstract

Post-disaster management requires a proportional deployment of human and material resources. The number of resources required to manage a disaster cannot be known without first evaluating the extent of casualty and consequence. This study proposed a taxonomy for classifying natural disasters based on casualty and consequence. Using a secondary data on global disasters from 1900 to 2021, the hierarchical cluster analysis technique was deployed for taxonomy formation. The learning algorithm evaluated the similarities in numbers of deaths, injuries, and the cost of damaged property caused by disasters. Three clusters were extracted which sub-grouped historical disasters based on similarities in casualty and consequence. Further, a taxonomy that defines the ranges of what constitute low, average, and high deaths/injuries/damage was established. Classifying a future disaster with this taxonomy prior to the deployment of resources for rescue, resettlement, compensation, and other disaster management operations will guide efficient resource allocation on a case-by-case basis.

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一种基于伤亡和后果的自然灾害分类方法

灾后管理需要按比例部署人力和物力资源。如果不首先评估伤亡和后果的程度，就无法了解管理灾害所需资源的数量。本研究提出了一种基于伤亡和后果的自然灾害分类方法。利用1900 - 2021年全球灾害的二级数据，采用层次聚类分析技术进行分类。该学习算法评估了灾害造成的死亡、受伤人数和财产损失成本的相似性。基于伤亡和后果的相似性，提取了3个聚类对历史灾害进行分组。此外，还建立了一种分类法，定义了低、平均和高死亡/受伤/损失的范围。在为救援、重新安置、补偿和其他灾害管理行动部署资源之前，用这种分类法对未来的灾害进行分类，将在个案基础上指导有效的资源分配。

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来源期刊

International Journal of Data Mining Modelling and Management COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： Facilitating transformation from data to information to knowledge is paramount for organisations. Companies are flooded with data and conflicting information, but with limited real usable knowledge. However, rarely should a process be looked at from limited angles or in parts. Isolated islands of data mining, modelling and management (DMMM) should be connected. IJDMMM highlightes integration of DMMM, statistics/machine learning/databases, each element of data chain management, types of information, algorithms in software; from data pre-processing to post-processing; between theory and applications. Topics covered include: -Artificial intelligence- Biomedical science- Business analytics/intelligence, process modelling- Computer science, database management systems- Data management, mining, modelling, warehousing- Engineering- Environmental science, environment (ecoinformatics)- Information systems/technology, telecommunications/networking- Management science, operations research, mathematics/statistics- Social sciences- Business/economics, (computational) finance- Healthcare, medicine, pharmaceuticals- (Computational) chemistry, biology (bioinformatics)- Sustainable mobility systems, intelligent transportation systems- National security