Litcius/Paper detail

Social risk analysis for mega construction projects based on structural equation model and Bayesian network: a risk evolution perspective

Ying Lu, Jie Liu, Wenhui Yu

2023Engineering Construction & Architectural Management20 citationsDOI

Abstract

Purpose Mega construction projects (MCPs), which play an important role in the economy, society and environment of a country, have developed rapidly in recent years. However, due to frequent social conflicts caused by the negative social impact of MCPs, social risk control has become a major challenge. Exploring the relationship between social risk factors and social risk from the perspective of risk evolution and identifying key factors contribute to social risk control; but few studies have paid enough attention to this. Therefore, this study aims to systematically analyze the impact of social risk factors on social risk based on a social risk evolution path. Design/methodology/approach This study proposed a social risk evolution path for MCPs explaining how social risk occurs and develops with the impact of social risk factors. To further analyze the impact quantitatively, a social risk analysis model combining structural equation model (SEM) with Bayesian network (BN) was developed. SEM was used to verify the relationship in the social risk evolution path. BN was applied to identify key social risk factors and predict the probabilities of social risk, quantitatively. The feasibility of the proposed model was verified by the case of water conservancy projects. Findings The results show that negative impact on residents’ living standards, public opinion advantage and emergency management ability were key social risk factors through sensitivity analysis. Then, scenario analysis simulated the risk probability results with the impact of different states of these key factors to obtain management strategies. Originality/value This study creatively proposes a social risk evolution path describing the dynamic interaction of the social risk and first applies the hybrid SEM–BN method in the social risk analysis for MCPs to explore effective risk control strategies. This study can facilitate the understanding of social risk from the perspective of risk evolution and provide decision-making support for the government coping with social risk in the implementation of MCPs.

Topics & Concepts

Structural equation modelingRisk managementPath analysis (statistics)Social network (sociolinguistics)Risk analysis (engineering)BusinessComputer scienceFinanceSocial mediaMachine learningWorld Wide WebUnderground infrastructure and sustainabilityInfrastructure Resilience and Vulnerability AnalysisConstruction Project Management and Performance