Aiman Tariq, Büşra Uzun, Babür Deliktaş, Mustafa Özgür Yaylı
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引用次数: 0
摘要
本文采用基于傅里叶级数和斯托克斯变换的集合机器学习(ML)技术和半分析方法,研究了二维功能分级纳米梁的非线性屈曲分析。利用 XG 提升、梯度提升、轻梯度提升、自适应提升、随机森林和额外树回归器等集合模型来探索不同输入特征与纳米梁屈曲载荷之间的复杂关系。这些模型的训练数据来自非线性应变梯度理论。使用 R2、MAE、MAPE、MSE 和 RMSE 等多种指标以及泰勒图、散点图和箱形图等可视化表示技术对 ML 模型的性能进行评估。此外,还采用 SHAP 分析法对模型进行解释,以研究每个输入特征对屈曲载荷的影响和重要性。在所有已建立的模型中,轻梯度提升模型在准确预测屈曲载荷方面表现出色。研究表明,在训练数据量充足的情况下,集合 ML 模型可以准确估计二维功能分级纳米梁的屈曲载荷,R2 值为 0.999。
An investigation on ensemble machine learning algorithms for nonlinear stability response of a two-dimensional FG nanobeam
In this paper, the nonlinear buckling analysis of two-dimensional functionally graded nanobeams is investigated using ensemble machine learning (ML) techniques and semi-analytical approach based on Fourier series and Stokes’ transformation. Ensemble models such as XG boosting, gradient boosting, light gradient boosting, adaptive boosting, random forest, and extra trees regressor are utilized to explore the complex relationship between different input features and the buckling loads of the nanobeams. The training data for these models are derived from the nonlinear strain gradient theory. Performance of ML models are evaluated using multiple metrics such as R2, MAE, MAPE, MSE and RMSE and visual representation techniques like Taylor plots, scatter plots, and box plots. Model interpretation using SHAP analysis is also employed for studying the impact and significance of each input feature on buckling loads. Among all the established models, light gradient boosting demonstrated superior performance in predicting the buckling loads accurately. It is shown that the ensemble ML models can accurately estimate the buckling loads of a two-dimensional functionally graded nanobeam with R2 value of 0.999 given the adequate amount of training data.
期刊介绍:
The Journal of the Brazilian Society of Mechanical Sciences and Engineering publishes manuscripts on research, development and design related to science and technology in Mechanical Engineering. It is an interdisciplinary journal with interfaces to other branches of Engineering, as well as with Physics and Applied Mathematics. The Journal accepts manuscripts in four different formats: Full Length Articles, Review Articles, Book Reviews and Letters to the Editor.
Interfaces with other branches of engineering, along with physics, applied mathematics and more
Presents manuscripts on research, development and design related to science and technology in mechanical engineering.