通过数学模型评估灾后恢复进展

IF 0.8 4区 工程技术 Q4 ENGINEERING, CIVIL
S. Ü. Dikmen, R. Akbiyikli, M. Sönmez
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引用次数: 3

摘要

自然灾害,特别是大地震,会对建筑环境造成广泛的破坏。因此,灾后恢复的主要组成部分是在不同时间开始的一系列项目,其成本和持续时间各不相同。在本研究中,灾后恢复曲线通过数学方法建模,考虑到这些项目的属性。接下来的方法是基于项目s曲线概念,通过概述项目支出来模拟进度。众所周知的数学函数被用来模拟项目支出和移交过程。利用所建立的模型进行了蒙特卡罗模拟,以评估采收率曲线的一般行为。采用威布尔分布生成模型参数。蒙特卡罗模拟结果表明,恢复过程呈s形,初始部分的持续时间和大块部分的斜率受社区准备水平的显著支配。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessment of the Disaster Recovery Progress through Mathematical Modelling
Natural disasters, especially major earthquakes, cause widespread devastation in the built environment. Hence, the major component of the recovery in its aftermath constitutes a chain of projects starting at different times, having different costs and durations. In this study, the post disaster recovery curve modelled through a mathematical approach taking into account these properties of the projects. The approach followed is based on the project S-curve concept that provides the opportunity to simulate the progress by outlining the project spending. Well-known mathematical functions are adapted to model the project spending and the handover processes. Monte Carlo simulation is performed to evaluate the general behavior of the recovery curve using the model developed. Weibull distribution is used to generate the model’s parameters. Results of the Monte Carlo simulation demonstrate that the recovery process exhibits an S-shape, the duration of initial portion and the slope of the bulk portion being significantly governed by the level of preparedness of the community.
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来源期刊
Teknik Dergi
Teknik Dergi 工程技术-工程:土木
自引率
30.80%
发文量
65
审稿时长
>12 weeks
期刊介绍: The scope of Teknik Dergi is naturally confined with the subjects falling in the area of civil engineering. However, the area of civil engineering has recently been significantly enlarged, even the definition of civil engineering has somewhat changed. Half a century ago, engineering was simply defined as “the art of using and converting the natural resources for the benefit of the mankind”. Today, the same objective is expected to be realised (i) by complying with the desire and expectations of the people concerned and (ii) without wasting the resources and within the sustainability principles. This change has required an interaction between engineering and social and administrative sciences. Some subjects at the borderline between civil engineering and social and administrative sciences have consequently been included in the area of civil engineering. Teknik Dergi defines its scope in line with this understanding. However, it requires the papers falling in the borderline to have a significant component of civil engineering.
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