Machine and deep learning methods for concrete strength Prediction: A bibliometric and content analysis review of research trends and future directions

This review paper provides a detailed evaluation of the existing landscape and future trends in applying machine learning and deep learning approaches for predicting concrete strength in construction engineering. The study contextualizes the investigation of machine learning and deep learning in con...

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Bibliographic Details
Published in:Applied soft computing 2024-10, Vol.164, p.111956, Article 111956
Main Authors: Kumar, Raman, Althaqafi, Essam, Patro, S Gopal Krishna, Simic, Vladimir, Babbar, Atul, Pamucar, Dragan, Singh, Sanjeev Kumar, Verma, Amit
Format: Article
Language:English
Subjects:
Concrete Strength Prediction
Construction Engineering
Deep Learning
Machine Learning
Review
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Summary:This review paper provides a detailed evaluation of the existing landscape and future trends in applying machine learning and deep learning approaches for predicting concrete strength in construction engineering. The study contextualizes the investigation of machine learning and deep learning in concrete strength prediction, emphasizing the need for precise strength forecasting in construction. This hybrid review uses quantitative analysis of an extensive collection of 1005 research publications from the Scopus database (2010−2023) to identify clusters, hotspots, and gaps in this area, giving a systematic way to analyze the field's dynamics. This review reveals major research clusters such as concrete characteristics, sustainability, error analysis, and optimization. It identifies research hotspots like compressive strength prediction, reinforced concrete, and neural networks. The review illuminates future research paths, ethical concerns, and environmental implications. It emphasizes the relevance of fairness, bias reduction, and sustainability in developing and deploying machine and deep learning models in the construction sector and the necessity for specialized models in forecasting concrete durability, sustainable concrete strength, and shear strength. •Thorough review of on the use of ML and DL in concrete strength prediction is offered.•Critical insights and patterns in the prediction using ML and DL are identified.•Research directions in ML for concrete strength prediction are elaborated on.•Future role of deep learning in advancing concrete strength prediction is revealed.•Notable research paths, ethical concerns, and environmental implications are given.
ISSN:1568-4946
DOI:10.1016/j.asoc.2024.111956