利用 CNN-LSTM 混合神经网络进行高速铁路地震响应预测

IF 3.6 2区 工程技术 Q1 ENGINEERING, CIVIL
Xuebing Zhang, Xiaonan Xie, Shenghua Tang, Han Zhao, Xueji Shi, Li Wang, Han Wu, Ping Xiang
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引用次数: 0

摘要

为应对高速铁路地震响应数据分析的挑战,本研究引入了一种结合卷积神经网络(CNN)和长短期记忆网络(LSTM)的混合预测模型。该模型的新颖之处在于能显著提高高速铁路光纤光栅监测的精度。采用准分布式光纤光栅,在每根光纤上战略性地布置了七个光栅监测点,以捕捉地震活动期间轨道板、钢轨、底板和横梁的响应。模型利用外围光栅的数据预测中心点的响应。通过从轨道采集位置开始的时间滑动窗口形成的连续特征图,使用 CNN 进行初始特征提取。然后,这些特征被 LSTM 网络排序,最终形成预测结果。实证结果验证了该模型的有效性,RMSE 为 0.3753,MAE 为 0.2968,R2 为 0.9371,凸显了其在铁路基础设施地震响应分析中的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

High-speed railway seismic response prediction using CNN-LSTM hybrid neural network

High-speed railway seismic response prediction using CNN-LSTM hybrid neural network

In addressing the challenges of analyzing seismic response data for high-speed railroads, this research introduces a hybrid prediction model combining convolutional neural networks (CNN) and long short-term memory networks (LSTM). The model's novelty lies in its ability to significantly improve the precision of fiber grating monitoring for high-speed railroads. Employing quasi-distributed fiber optic gratings, seven grating monitoring points were strategically placed on each fiber to capture responses of the track plate, rail, base plate, and beam during seismic activities. Using data from peripheral gratings, the model predicts the central point's response. A continuous feature map, formed via a time-sliding window from the rail's acquisition location, undergoes initial feature extraction with CNN. These features are then sequenced for the LSTM network, culminating in prediction. Empirical results validate the model's efficacy, with an RMSE of 0.3753, MAE of 0.2968, and a R2 of 0.9371, underscoring its potential in earthquake response analysis for rail infrastructures.

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来源期刊
Journal of Civil Structural Health Monitoring
Journal of Civil Structural Health Monitoring Engineering-Safety, Risk, Reliability and Quality
CiteScore
8.10
自引率
11.40%
发文量
105
期刊介绍: The Journal of Civil Structural Health Monitoring (JCSHM) publishes articles to advance the understanding and the application of health monitoring methods for the condition assessment and management of civil infrastructure systems. JCSHM serves as a focal point for sharing knowledge and experience in technologies impacting the discipline of Civionics and Civil Structural Health Monitoring, especially in terms of load capacity ratings and service life estimation.
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