Risk Analysis of Laboratory Fire Accidents in Chinese Universities by Combining Association Rule Learning and Fuzzy Bayesian Networks

IF 3 3区 农林科学 Q2 ECOLOGY Fire-Switzerland Pub Date : 2023-08-07 DOI:10.3390/fire6080306
Fuqiang Yang, X. Li, Shuaiqi Yuan, G. Reniers
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Abstract

Targeting the challenges in the risk analysis of laboratory fire accidents, particularly considering fire accidents in Chinese universities, an integrated approach is proposed with the combination of association rule learning, a Bayesian network (BN), and fuzzy set theory in this study. The proposed approach has the main advantages of deriving conditional probabilities of BN nodes based on historical accident data and association rules (ARs) and making good use of expert elicitation by using an augmented fuzzy set method. In the proposed approach, prior probabilities of the cause nodes are determined based on expert elicitation with the help of an augmented fuzzy set method. The augmented fuzzy set method enables the effective aggregation of expert opinions and helps to reduce subjective bias in expert elicitations. Additionally, an AR algorithm is applied to determine the probabilistic dependency between the BN nodes based on the historical accident data of Chinese universities and further derive conditional probability tables. Finally, the developed fuzzy Bayesian network (FBN) model was employed to identify critical causal factors with respect to laboratory fire accidents in Chinese universities. The obtained results show that H4 (bad safety awareness), O1 (improper storage of hazardous chemicals), E1 (environment with hazardous materials), and M4 (inadequate safety checks) are the four most critical factors inducing laboratory fire accidents.
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关联规则学习与模糊贝叶斯网络相结合的中国高校实验室火灾事故风险分析
针对实验室火灾事故风险分析中存在的问题,特别是我国高校火灾事故风险分析,提出了一种将关联规则学习、贝叶斯网络(BN)和模糊集理论相结合的综合分析方法。该方法的主要优点是基于历史事故数据和关联规则推导BN节点的条件概率,并利用增广模糊集方法充分利用专家启发。该方法利用增广模糊集方法,基于专家启发确定原因节点的先验概率。增广模糊集方法能够有效地聚集专家意见,有助于减少专家归纳中的主观偏见。此外,基于中国高校历史事故数据,采用AR算法确定BN节点之间的概率依赖关系,并进一步导出条件概率表。最后,利用所建立的模糊贝叶斯网络(FBN)模型对我国高校实验室火灾事故的关键原因进行识别。结果表明,H4(安全意识差)、O1(危险化学品存放不当)、E1(危险物品存放环境)和M4(安全检查不到位)是诱发实验室火灾事故的4个最关键因素。
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来源期刊
Fire-Switzerland
Fire-Switzerland Multiple-
CiteScore
3.10
自引率
15.60%
发文量
182
审稿时长
11 weeks
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