利用机器学习方法预测高性能混凝土的抗压强度与SHAP分析

Q2 Engineering

Asian Journal of Civil Engineering Pub Date : 2024-11-18 DOI:10.1007/s42107-024-01195-6

Suhaib Rasool Wani, Manju Suthar

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引用次数: 0

摘要

超高性能混凝土（UHPC）是一种特殊的建筑材料，以其卓越的机械性能和耐久性而闻名。机器学习（ML）方法已经成为预测UHPC的抗压强度（CS）和识别最优混合设计所必需的关键自变量的基本方法。本研究采用人工神经网络、M5P和随机森林三种机器学习模型预测了UHPC的CS。采用各种测量方法，包括R、RMSE、RAE、MAE和RRSE来评估这些模型的性能。总共收集了810个观察值，其中80%用于训练，其余20%用于测试。经统计分析，RF模型的测试阶段r值为0.98，MAE为6.35，RMSE为8.49，RRSE为21.90%，RAE为21.21%，优于其他模型。结果表明，年龄对模型因变量的影响最为显著，其SHAP值为23.06。机器学习技术通过促进更快、更准确地评估材料属性，为建筑行业提供了巨大的好处。

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Using machine learning approaches for predicting the compressive strength of ultra-high-performance concrete with SHAP analysis

Ultra-high-performance concrete (UHPC) is a special construction material that is renowned for its exceptional mechanical properties and durability. Machine Learning (ML) methodologies have become essential methods for predicting the compressive strength (CS) of UHPC and identifying critical independent variables that are essential for optimal mix design. This study predicted the CS of UHPC using three ML models: artificial neural networks, M5P, and random forest. Various measures, including R, RMSE, RAE, MAE, and RRSE were employed to assess the performance of these models. A total of 810 observations were gathered, with 80% designated for training and the remaining 20% for testing. The RF model demonstrated superior performance compared to the other models, attaining a testing phase R-value of 0.98, MAE of 6.35, RMSE of 8.49, RRSE of 21.90%, and RAE of 21.21% through statistical analysis. The findings indicate that the variable “age” exerted the most significant influence on the model’s dependent variable, evidenced by a SHAP value of 23.06. ML techniques provide substantial benefits to the construction sector by facilitating faster and more accurate evaluations of material attributes.

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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.