Digital twins for dynamics of a train-slab track-bridge coupled system

IF 7.9 1区 工程技术 Q1 ENGINEERING, MECHANICAL Mechanical Systems and Signal Processing Pub Date : 2024-11-12 DOI:10.1016/j.ymssp.2024.112130
Hao Liang, Bao-Rui Dai, You-Lin Xu, Qi Li, Qing-Yuan Song, Yue Zheng
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Abstract

In consideration of significant uncertainties arising from the degradation of in-service train-slab track-bridge coupled systems and the limitation in accurately reproducing track irregularities using prescribed track spectra, this study presents a novel framework to establish a digital twin for dynamics of an in-service train-slab track-bridge coupled system to best simulate and predict its dynamic behavior and performance during its operation. The train-slab track-bridge coupled system of a railway test line is taken as a physical entity and subjected to field measurements. The design-document-based virtual entity (numerical model) of the train-slab track-bridge coupled system is then established. A model updating procedure is subsequently proposed for the virtual entity based on the dynamic characteristics identified from the physical entity, and a track irregularity spectrum recognition method is developed in terms of the measured dynamic responses and optimization algorithm, thereby leading to the digital twin establishment. The established digital twin is finally used to simulate and predict the coupled vibration of the train-slab track-bridge system and compare with the measurement results. The results demonstrate the feasibility and accuracy of the digital twin and its prediction capability.
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列车-底板-轨道-桥梁耦合系统动力学数字双胞胎
考虑到在役列车-底板-轨道-桥梁耦合系统退化所产生的重大不确定性,以及使用规定轨道谱精确再现轨道不规则性的局限性,本研究提出了一个新颖的框架,为在役列车-底板-轨道-桥梁耦合系统的动力学建立数字孪生,以最佳方式模拟和预测其运行期间的动态行为和性能。将铁路试验线上的列车-路基-轨道-桥梁耦合系统作为一个物理实体,并对其进行实地测量。然后建立基于设计文件的列车-底板-轨道-桥梁耦合系统虚拟实体(数值模型)。随后,根据从物理实体中识别出的动态特性,为虚拟实体提出了模型更新程序,并根据测得的动态响应和优化算法开发了轨道不规则频谱识别方法,从而建立了数字孪生系统。最后利用建立的数字孪生模拟和预测列车-板式轨道-桥梁系统的耦合振动,并与测量结果进行比较。结果证明了数字孪生的可行性、准确性及其预测能力。
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来源期刊
Mechanical Systems and Signal Processing
Mechanical Systems and Signal Processing 工程技术-工程:机械
CiteScore
14.80
自引率
13.10%
发文量
1183
审稿时长
5.4 months
期刊介绍: Journal Name: Mechanical Systems and Signal Processing (MSSP) Interdisciplinary Focus: Mechanical, Aerospace, and Civil Engineering Purpose:Reporting scientific advancements of the highest quality Arising from new techniques in sensing, instrumentation, signal processing, modelling, and control of dynamic systems
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