Machine learning‐aided prediction of windstorm‐induced vibration responses of long‐span suspension bridges

IF 8.5 1区工程技术 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Computer-Aided Civil and Infrastructure Engineering Pub Date : 2024-11-26 DOI:10.1111/mice.13387

Alireza Entezami, Hassan Sarmadi

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Abstract

Long‐span suspension bridges are significantly susceptible to windstorm‐induced vibrations, leading to critical challenges of field measurements along with multicollinearity and nonlinearity between wind features and bridge dynamic responses. To address these issues, this article proposes an innovative machine learning‐assisted predictive method by integrating a predictor selector developed from regularized neighborhood components analysis and kernel regression modeling through a regularized support vector machine adjusted by Bayesian hyperparameter optimization. The crux of the proposed method lies in advanced machine learning algorithms including metric learning, kernel learning, and hybrid learning integrated in a regularized framework. Utilizing the Hardanger Bridge subjected to different windstorms, the performance of the proposed method is validated and then compared with state‐of‐the‐art regression techniques. Results highlight the effectiveness and practicality of the proposed method with the minimum and maximum R‐squared rates of 89% and 98%, respectively. It also surpasses the state‐of‐the‐art regression techniques in predicting bridge dynamics under different windstorms.

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机器学习辅助预测大跨度悬索桥的风灾诱发振动响应

大跨度悬索桥非常容易受到暴风引起的振动的影响，导致现场测量面临严峻挑战，同时风力特征与桥梁动态响应之间存在多重共线性和非线性。为解决这些问题，本文提出了一种创新的机器学习辅助预测方法，即通过贝叶斯超参数优化调整的正则化支持向量机，将正则化邻域成分分析和核回归建模开发的预测选择器整合在一起。所提方法的关键在于先进的机器学习算法，包括集成在正则化框架中的度量学习、核学习和混合学习。利用哈当厄尔大桥遭受的不同风灾，对所提方法的性能进行了验证，然后与最先进的回归技术进行了比较。结果凸显了所提方法的有效性和实用性，最小和最大 R 平方率分别为 89% 和 98%。在预测不同风灾下的桥梁动态方面，该方法也超越了最先进的回归技术。

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来源期刊

Computer-Aided Civil and Infrastructure Engineering 工程技术-工程：土木

CiteScore

17.60

自引率

19.80%

发文量

146

审稿时长

1 months

期刊介绍： Computer-Aided Civil and Infrastructure Engineering stands as a scholarly, peer-reviewed archival journal, serving as a vital link between advancements in computer technology and civil and infrastructure engineering. The journal serves as a distinctive platform for the publication of original articles, spotlighting novel computational techniques and inventive applications of computers. Specifically, it concentrates on recent progress in computer and information technologies, fostering the development and application of emerging computing paradigms. Encompassing a broad scope, the journal addresses bridge, construction, environmental, highway, geotechnical, structural, transportation, and water resources engineering. It extends its reach to the management of infrastructure systems, covering domains such as highways, bridges, pavements, airports, and utilities. The journal delves into areas like artificial intelligence, cognitive modeling, concurrent engineering, database management, distributed computing, evolutionary computing, fuzzy logic, genetic algorithms, geometric modeling, internet-based technologies, knowledge discovery and engineering, machine learning, mobile computing, multimedia technologies, networking, neural network computing, optimization and search, parallel processing, robotics, smart structures, software engineering, virtual reality, and visualization techniques.