Study of dynamic response of crane system via surrogates based on Karhunen–Loève expansion and neural networks

Journal of Science and Technology in Civil Engineering (STCE) - HUCE Pub Date : 2023-06-26 DOI:10.31814/stce.huce2023-17(2)-17

V. Trinh

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Abstract

Overhead cranes are widely used in construction sites and manufacturing/assembly lines for various tasks (loading, unloading, lifting, transporting,. . . ). This paper investigates the dynamic response of the main beam (i.e., girder) of an overhead crane by a surrogate technique based on truncated Karhunen–Loève (KL) expansion and neural networks. First, the physical modeling and the motion equations of the crane system are derived using the Lagrange equation. Then, the dynamic responses of the overhead crane system with a number of the input parameters (i.e., configurations) are estimated by the numerical Newmark-beta integral method. Finally, the surrogates based on the truncated KL expansion and neural networks are constructed for studying the dynamic responses of the girder within a limited reference dataset. It can be stated that with a convergence property, the reconstructed surrogate performs good predictability for characterizing the dynamic responses of the structure. The presented method allows us to study the dynamic analysis and optimization of the crane according to the design conditions in the actual applications.

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基于karhunen - lo展开和神经网络的代理人起重机系统动态响应研究

桥式起重机广泛应用于建筑工地和制造/装配线，用于各种任务(装卸、起重、运输等)。．本文采用基于截断karhunen - lo (KL)展开和神经网络的替代方法研究了桥式起重机主梁的动力响应。首先，利用拉格朗日方程推导了起重机系统的物理建模和运动方程。然后，采用数值Newmark-beta积分法估计了桥式起重机系统在多个输入参数(即构型)下的动力响应。最后，构建了基于截断KL展开和神经网络的替代模型，在有限的参考数据集内研究了主梁的动力响应。由此可见，重构代理具有收敛性，对表征结构的动力响应具有良好的可预测性。所提出的方法使我们能够在实际应用中根据设计条件对起重机进行动力学分析和优化。

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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Journal of Science and Technology in Civil Engineering (STCE) - HUCE

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