Enhancing structural health monitoring with AI-ML algorithms: a focus on crack detection and prediction

Q2 Engineering

Asian Journal of Civil Engineering Pub Date : 2025-04-04 DOI:10.1007/s42107-024-01261-z

Ahmad Bader, Amir Shtayat, Bara’ Al-Mistarehi

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引用次数: 0

Abstract

SHM is a very important process in terms of the safety and durability of infrastructure. Traditional SHM often faces problems detecting minor structural defects and handling large datasets. Therefore, certain more advanced approaches are called for. The paper discussed the applications of AI and ML algorithms, such as CatBoost and the African Vultures Optimization Algorithm, for such challenges. The research is based on a unique dataset of 8,541 rows and diverse features, developing a predictive framework that enhances crack detection and forecast capabilities. The approach mainly deals with heterogeneous data using the CatBoost algorithm, given its capability for high-accuracy predictions, while AVOA optimizes feature selection, reduces the computational cost, and guarantees no loss in model performance. This methodology has resulted in a significant enhancement of the prediction accuracy, which states the importance of AI-ML integration in SHM. The key results demonstrate the effectiveness of the model in detecting structural anomalies and crack propagation to enable proactive maintenance strategies. This study’s contributions have gone toward advancing SHM with scalable and efficient AI-ML frameworks, enabling real-time monitoring for better infrastructure management. Such development might have a transforming potential to cut down on maintenance costs and enhance operational safety, thus further encouraging sustainable infrastructure systems.

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用AI-ML算法加强结构健康监测：关注裂缝检测和预测

就基础设施的安全性和耐久性而言，SHM是一个非常重要的过程。传统的SHM经常面临检测微小结构缺陷和处理大型数据集的问题。因此，需要一些更先进的方法。本文讨论了AI和ML算法的应用，如CatBoost和非洲秃鹫优化算法，以应对这些挑战。该研究基于包含8,541行和各种特征的独特数据集，开发了一个预测框架，可以增强裂缝检测和预测能力。该方法主要使用CatBoost算法处理异构数据，因为它具有高精度预测的能力，而AVOA优化了特征选择，降低了计算成本，并保证了模型性能的不损失。这种方法显著提高了预测精度，这说明了AI-ML集成在SHM中的重要性。关键结果证明了该模型在检测结构异常和裂纹扩展方面的有效性，从而实现主动维护策略。本研究的贡献是通过可扩展和高效的AI-ML框架推进SHM，实现实时监控，以更好地管理基础设施。这种发展可能具有降低维护成本和提高操作安全性的转型潜力，从而进一步鼓励可持续的基础设施系统。

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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来源期刊

Asian Journal of Civil Engineering Engineering-Civil and Structural Engineering

CiteScore

2.70

自引率

0.00%

发文量

121

期刊介绍： The Asian Journal of Civil Engineering (Building and Housing) welcomes articles and research contributions on topics such as:- Structural analysis and design - Earthquake and structural engineering - New building materials and concrete technology - Sustainable building and energy conservation - Housing and planning - Construction management - Optimal design of structuresPlease note that the journal will not accept papers in the area of hydraulic or geotechnical engineering, traffic/transportation or road making engineering, and on materials relevant to non-structural buildings, e.g. materials for road making and asphalt. Although the journal will publish authoritative papers on theoretical and experimental research works and advanced applications, it may also feature, when appropriate: a) tutorial survey type papers reviewing some fields of civil engineering; b) short communications and research notes; c) book reviews and conference announcements.