A probabilistic approach for safety risk analysis in metro construction

•A probabilistic decision approach for safety risk analysis for metro construction.•An expert confidence index to ensure data reliability for fuzzy probability estimation.•A defuzzification method to overcome limitations of fuzzy linear approximations.•A sensitivity analysis technique to evaluate pe...

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Bibliographic Details
Published in:Safety science 2014-03, Vol.63, p.8-17
Main Authors: Zhang, Limao, Skibniewski, Miroslaw J., Wu, Xianguo, Chen, Yueqing, Deng, Qianli
Format: Article
Language:English
Subjects:
Biological and medical sciences
Complex environments
Expert confidence index
Fuzzy fault tree analysis
Medical sciences
Metro construction
Occupational medicine
Probabilistic decision approach
Public health. Hygiene-occupational medicine
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Summary:•A probabilistic decision approach for safety risk analysis for metro construction.•An expert confidence index to ensure data reliability for fuzzy probability estimation.•A defuzzification method to overcome limitations of fuzzy linear approximations.•A sensitivity analysis technique to evaluate percentage contribution of basic events. This paper presents a probabilistic decision approach for safety risk analysis for metro construction in complex project environments. An expert confidence index is proposed for the fuzzy probability estimation of basic events, aiming to ensure the reliability of collected data during the expert investigation. An approach for defuzzification is developed in a precise way based on the representation theorem, attempting to overcome the limitations related to fuzzy linear approximations. A sensitivity analysis technique is utilized to evaluate the percentage contribution of the basic events to the failure of a top-event. A possibility based importance index, fuzzy importance measure, is deployed for the sensitivity analysis of basic event to reveal the critical basic events for reducing the risk limit. A typical hazard in tunnel cross passage construction (TCPC) on the example of Wuhan Yangtze Metro Tunnel construction is presented in a case study. The results demonstrate the feasibility of the proposed method and its application potential. The proposed method can be used as a decision support tool to provide guidelines for safety management in metro construction, and thus increase the likelihood of a successful project in a complex environment.
ISSN:0925-7535
1879-1042
DOI:10.1016/j.ssci.2013.10.016