Risk Assessment for Bridges Safety Management during Operation Based on Fuzzy Clustering Algorithm

Risk Assessment for Bridges Safety Management during Operation Based on Fuzzy Clustering Algorithm

In recent years, large span and large sea-crossing bridges are built, bridges accidents caused by improper operational management occur frequently. In order to explore the better methods for risk assessment of the bridges operation departments, the method based on fuzzy clustering algorithm is selec...

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Main Authors: Xia Hanyu, Zhang Lijing, Tao Gang, Tong Bing, Zhang Haiou
Format: Article
Language:English
Published: EDP Sciences 2016-01-01
Series:MATEC Web of Conferences
Online Access:http://dx.doi.org/10.1051/matecconf/20166104012
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spelling doaj-14c8ab6e9ae9450ea93c382133ed57df2021-02-02T01:03:26ZengEDP SciencesMATEC Web of Conferences2261-236X2016-01-01610401210.1051/matecconf/20166104012matecconf_apop2016_04012Risk Assessment for Bridges Safety Management during Operation Based on Fuzzy Clustering AlgorithmXia Hanyu0Zhang Lijing1Tao Gang2Tong Bing3Zhang Haiou4Jiangsu Key Laboratory of Urban and Industrial Safety, College of Urban Construction and Safety Engineering, Nanjing Tech UniversityJiangsu Key Laboratory of Urban and Industrial Safety, College of Urban Construction and Safety Engineering, Nanjing Tech UniversityJiangsu Key Laboratory of Urban and Industrial Safety, College of Urban Construction and Safety Engineering, Nanjing Tech UniversityJiangsu Key Laboratory of Urban and Industrial Safety, College of Urban Construction and Safety Engineering, Nanjing Tech UniversityNanjing Architectural Design & Research Institute CO., LTDIn recent years, large span and large sea-crossing bridges are built, bridges accidents caused by improper operational management occur frequently. In order to explore the better methods for risk assessment of the bridges operation departments, the method based on fuzzy clustering algorithm is selected. Then, the implementation steps of fuzzy clustering algorithm are described, the risk evaluation system is built, and Taizhou Bridge is selected as an example, the quantitation of risk factors is described. After that, the clustering algorithm based on fuzzy equivalence is calculated on MATLAB 2010a. In the last, Taizhou Bridge operation management departments are classified and sorted according to the degree of risk, and the safety situation of operation departments is analyzed.http://dx.doi.org/10.1051/matecconf/20166104012
collection DOAJ
language English
format Article
sources DOAJ
author Xia Hanyu
Zhang Lijing
Tao Gang
Tong Bing
Zhang Haiou
spellingShingle Xia Hanyu
Zhang Lijing
Tao Gang
Tong Bing
Zhang Haiou
Risk Assessment for Bridges Safety Management during Operation Based on Fuzzy Clustering Algorithm
MATEC Web of Conferences
author_facet Xia Hanyu
Zhang Lijing
Tao Gang
Tong Bing
Zhang Haiou
author_sort Xia Hanyu
title Risk Assessment for Bridges Safety Management during Operation Based on Fuzzy Clustering Algorithm
title_short Risk Assessment for Bridges Safety Management during Operation Based on Fuzzy Clustering Algorithm
title_full Risk Assessment for Bridges Safety Management during Operation Based on Fuzzy Clustering Algorithm
title_fullStr Risk Assessment for Bridges Safety Management during Operation Based on Fuzzy Clustering Algorithm
title_full_unstemmed Risk Assessment for Bridges Safety Management during Operation Based on Fuzzy Clustering Algorithm
title_sort risk assessment for bridges safety management during operation based on fuzzy clustering algorithm
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2016-01-01
description In recent years, large span and large sea-crossing bridges are built, bridges accidents caused by improper operational management occur frequently. In order to explore the better methods for risk assessment of the bridges operation departments, the method based on fuzzy clustering algorithm is selected. Then, the implementation steps of fuzzy clustering algorithm are described, the risk evaluation system is built, and Taizhou Bridge is selected as an example, the quantitation of risk factors is described. After that, the clustering algorithm based on fuzzy equivalence is calculated on MATLAB 2010a. In the last, Taizhou Bridge operation management departments are classified and sorted according to the degree of risk, and the safety situation of operation departments is analyzed.
url http://dx.doi.org/10.1051/matecconf/20166104012
work_keys_str_mv AT xiahanyu riskassessmentforbridgessafetymanagementduringoperationbasedonfuzzyclusteringalgorithm
AT zhanglijing riskassessmentforbridgessafetymanagementduringoperationbasedonfuzzyclusteringalgorithm
AT taogang riskassessmentforbridgessafetymanagementduringoperationbasedonfuzzyclusteringalgorithm
AT tongbing riskassessmentforbridgessafetymanagementduringoperationbasedonfuzzyclusteringalgorithm
AT zhanghaiou riskassessmentforbridgessafetymanagementduringoperationbasedonfuzzyclusteringalgorithm
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