Prediction of wave overtopping discharges at coastal structures using interpretable machine learning

IF 1.9 3区 工程技术 Q3 ENGINEERING, CIVIL
Tae-Yoo Kim, Woo-Dong Lee
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引用次数: 0

Abstract

ABSTRACT Appropriate estimation and prediction of wave overtopping discharges are very important in terms of economics, port structure stability, and port operation. In recent years, machine learning (ML) techniques, which predict by finding statistical structures from input/output data using computers, have generated interest. However, as the complexity of ML models increases, interpreting their results becomes increasingly difficult. Interpretation of ML results is an important part in developing an efficient structure design strategy for improved wave overtopping discharge estimation. Therefore, in this study, eight linear/nonlinear ML models were applied to the same data, and a pipeline model for selecting an ML model suitable for data characteristics was developed. In addition, the importance of variables related to the prediction of wave overtopping discharges and their correlations were analyzed by interpretable ML. The research results showed that the extreme gradient boosting model had the highest prediction accuracy and significantly reduced the error. Accordingly, a data-based model can be a new alternative for analyzing the complex physical relationships in the field of coastal engineering and used as a starting point toward structure design and development for coastal disaster prevention.
利用可解释的机器学习预测海岸结构的波浪溢出量
摘要波浪漫溢流量的合理估算和预测对经济、港口结构稳定和港口运营具有重要意义。近年来,机器学习(ML)技术引起了人们的兴趣,这种技术通过使用计算机从输入/输出数据中找到统计结构来进行预测。然而,随着ML模型复杂性的增加,解释其结果变得越来越困难。ML结果的解释是制定有效的结构设计策略以改进波浪过顶流量估计的重要组成部分。因此,本研究将8个线性/非线性ML模型应用于同一数据,并开发了一个用于选择适合数据特征的ML模型的流水线模型。此外,利用可解释ML分析了波浪过顶流量预测相关变量的重要性及其相关性。研究结果表明,极端梯度增强模型预测精度最高,误差显著减小。因此,基于数据的模型可以作为分析海岸工程领域复杂物理关系的新选择,并可作为海岸防灾结构设计和开发的起点。
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来源期刊
Coastal Engineering Journal
Coastal Engineering Journal 工程技术-工程:大洋
CiteScore
4.60
自引率
8.30%
发文量
0
审稿时长
7.5 months
期刊介绍: Coastal Engineering Journal is a peer-reviewed medium for the publication of research achievements and engineering practices in the fields of coastal, harbor and offshore engineering. The CEJ editors welcome original papers and comprehensive reviews on waves and currents, sediment motion and morphodynamics, as well as on structures and facilities. Reports on conceptual developments and predictive methods of environmental processes are also published. Topics also include hard and soft technologies related to coastal zone development, shore protection, and prevention or mitigation of coastal disasters. The journal is intended to cover not only fundamental studies on analytical models, numerical computation and laboratory experiments, but also results of field measurements and case studies of real projects.
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