漏斗分析模型在建设项目关键因素识别中的应用分析

IF 1 4区工程技术 Q4 ENGINEERING, CIVIL

Proceedings of the Institution of Civil Engineers-Transport Pub Date : 2023-10-23 DOI:10.1680/jsmic.23.00019

Xiaoqing Cai, Liang Kong

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引用次数: 0

摘要

本研究通过收集相关数据，构建漏斗分析模型，实现故障监测。将BP神经网络用于建筑工程结构损伤识别，并利用遗传算法对BP进行优化，改善BP收敛慢、耗时长等问题。结果表明，三阶频率与一阶曲率模态的差值是最适合进行损伤预警和识别的指标。损伤构件相邻测点的一阶曲率模态差值随损伤程度的增加而增大。与遗传算法-BP神经网络(GA-BP)和BP神经网络(BP)相比，前者的识别误差更小，性能更好。GA-BP识别结构损伤程度的最大、最小相对误差分别为8.06%和1.61%，满足工程精度要求。基于漏斗分析模型的建筑工程关键因素识别，有利于识别结构损伤，保障工程安全。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Application analysis of funnel analysis model in key factor identification of construction projects

This study constructs a funnel analysis model by collecting relevant data to achieve fault monitoring. BP neural networks are also used to identify structural damage in construction projects, and GA is used to optimize BP to improve issues such as slow convergence and long time consumption. The results indicate that the difference between third-order frequency and first-order curvature mode is the most suitable indicator for damage warning and identification. The difference in the first-order curvature mode of adjacent measurement points of the damaged component increases with the increase of the degree of damage. Compared with Genetic Algorithm-BP neural network(GA-BP) and BP neural network(BP), the former has a smaller error in identification and better performance. The maximum and minimum relative errors of GA-BP in identifying the damage degree of the structure are 8.06% and 1.61%, meeting the accuracy requirements of the project. The identification of key factors in construction projects based on the funnel analysis model is beneficial for identifying structural damage and ensuring the safety of engineering projects.

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来源期刊

Proceedings of the Institution of Civil Engineers-Transport 工程技术-工程：土木

CiteScore

2.60

自引率

0.00%

发文量

审稿时长

5 months

期刊介绍： Transport is essential reading for those needing information on civil engineering developments across all areas of transport. This journal covers all aspects of planning, design, construction, maintenance and project management for the movement of goods and people. Specific topics covered include: transport planning and policy, construction of infrastructure projects, traffic management, airports and highway pavement maintenance and performance and the economic and environmental aspects of urban and inter-urban transportation systems.