Quantitative Systems Modeling for Critical Infrastructure Predictions in Climate Change: A National Defense Framework

Adedeji Badiru, Nils Wagenknecht, Andreas Mertens, Olufemi Omitaomu
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Abstract

Abstract Any national defense is dependent on the efficacy of the available physical infrastructure. Whatever degrades infrastructure, structurally, physically, architecturally, or aesthetically, is of interest to the nation. Climate change is now a major significant factor of interest impinging on national critical infrastructure. The devastating effects of climate change have increasing pervasiveness throughout the world. The impact on critical infrastructure is of particular interest to researchers. In consonance with ASCE-ASME's special issue on critical infrastructure protection and resilience, this paper presents a systems-modeling approach for critical infrastructure and predictions in relation to climate change agreements in COP26. The paper addresses high-level critical systems-based assessment of the social, legal, economic, and technical nuances impinging on the viability of COP26 agreements. The paper was written using a multi-national collaboration approach. The specific focus of national defense is used as the backdrop for the methodology of the paper.
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气候变化中关键基础设施预测的定量系统建模:一个国防框架
任何国家的国防都依赖于现有物理基础设施的有效性。任何使基础设施在结构上、物理上、建筑上或美学上退化的东西,都是国家感兴趣的。气候变化现在是影响国家关键基础设施的一个重要因素。气候变化的破坏性影响在全世界越来越普遍。对关键基础设施的影响是研究人员特别感兴趣的。根据ASCE-ASME关于关键基础设施保护和恢复力的特刊,本文提出了一种与COP26气候变化协议相关的关键基础设施和预测的系统建模方法。本文对影响COP26协议可行性的社会、法律、经济和技术细微差别进行了基于高层关键系统的评估。这篇论文是用多国合作的方法写成的。本文的研究方法以国防的具体焦点为背景。
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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CiteScore
5.20
自引率
13.60%
发文量
34
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