基于资产管理的路面弹性指标主成分分析

IF 3.1 Q2 CONSTRUCTION & BUILDING TECHNOLOGY Construction Innovation-England Pub Date : 2022-12-07 DOI:10.1108/ci-04-2022-0083
Ahmed Mohammed, T. Zayed, F. Nasiri, A. Bagchi
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引用次数: 1

摘要

目的本文从资产管理的角度扩展了作者先前对市政基础设施弹性的研究工作。因此,本文旨在制定路面弹性指数,同时结合资产管理和作者先前研究工作中的相关弹性指标。设计/方法论/方法本文介绍了一套基于整体的关键指标,这些指标反映了市政基础设施的弹性。然后,采用加权和均值法对指标进行综合,形成所提出的弹性指数。通过IBM SPSS®使用主成分分析(PCA)确定弹性指标权重。所开发的主成分分析框架是基于优化模型输出构建的,以生成所需弹性指数的所需权重。在执行PCA.Findings之前,使用标准化方法对输出优化数据进行了调整。本文提供了一种生成市政基础设施弹性指数的数学方法。在整个研究过程中进行的统计测试显示出高度显著性水平。因此,对复原力指标数据使用主成分分析是恰当的。所提出的框架有利于资产管理专家,在资产管理专家中,引入所提出的指数将使决策者在路面网络维护规划方面易于使用。研究局限性/含义所使用的弹性指标需要更新,以包括资产冗余和结构性资产能力。使用聚类作为验证工具,对于其他研究人员来说是一个很好的机会,可以单独检查与所产生的聚类相关的每条路面走廊的弹性指数。独创性/价值本文提供了一个整合弹性和资产管理概念的独特例子,是实现这两个概念全面整合的重要一步。所使用的主成分分析框架提供了动态弹性指标权重,因此提供了动态韧性指数。弹性是基础设施系统的一个动态特性。在其生命周期中,随着维护和修复计划的变化、系统改造以及整个生命周期中发生的破坏性事件,情况有所不同。因此,主成分分析技术是首选方法,因为它以数据为导向,在驱动指标权重时消除了主观性。
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Asset management-based resilience index formulation for pavements via principal components analysis
Purpose This paper extends the authors’ previous research work investigating resilience for municipal infrastructure from an asset management perspective. Therefore, this paper aims to formulate a pavement resilience index while incorporating asset management and the associated resilience indicators from the authors’ previous research work. Design/methodology/approach This paper introduces a set of holistic-based key indicators that reflect municipal infrastructure resiliency. Thenceforth, the indicators were integrated using the weighted sum mean method to form the proposed resilience index. Resilience indicators weights were determined using principal components analysis (PCA) via IBM SPSS®. The developed framework for the PCA was built based on an optimization model output to generate the required weights for the desired resilience index. The output optimization data were adjusted using the standardization method before performing PCA. Findings This paper offers a mathematical approach to generating a resilience index for municipal infrastructure. The statistical tests conducted throughout the study showed a high significance level. Therefore, using PCA was proper for the resilience indicators data. The proposed framework is beneficial for asset management experts, where introducing the proposed index will provide ease of use to decision-makers regarding pavement network maintenance planning. Research limitations/implications The resilience indicators used need to be updated beyond what is mentioned in this paper to include asset redundancy and structural asset capacity. Using clustering as a validation tool is an excellent opportunity for other researchers to examine the resilience index for each pavement corridor individually pertaining to the resulting clusters. Originality/value This paper provides a unique example of integrating resilience and asset management concepts and serves as a vital step toward a comprehensive integration approach between the two concepts. The used PCA framework offers dynamic resilience indicators weights and, therefore, a dynamic resilience index. Resiliency is a dynamic feature for infrastructure systems. It differs during their life cycle with the change in maintenance and rehabilitation plans, systems retrofit and the occurring disruptive events throughout their life cycle. Therefore, the PCA technique was the preferred method used where it is data-based oriented and eliminates the subjectivity while driving indicators weights.
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来源期刊
Construction Innovation-England
Construction Innovation-England CONSTRUCTION & BUILDING TECHNOLOGY-
CiteScore
7.10
自引率
12.10%
发文量
71
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