A Preliminary Study on 2D Convolutional Neural Network-Based Discontinuous Rail Position Classification for Detection on Rail Breaks Using Distributed Acoustic Sensing Data

IF 1.9 4区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC IET Electrical Systems in Transportation Pub Date : 2024-10-04 DOI:10.1049/2024/5574909
Hye-Yeun Chun, Jungtai Kim, Dongkue Kim, Ilmu Byun, Kyeongjun Ko
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Abstract

Rail breaks, which are crucial maintenance issues for the railways, require immediate inspection and maintenance as it can cause severe railway accidents. Though, it is still difficult to promptly detect rail breaks that occur during train operation even with the advances in maintenance and inspection technologies. In this research, as a preliminary study on rail break detection system, a deep learning-based discontinuous rail position classification method, which is using vibration data obtained from distributed acoustic sensing (DAS) system during train operation, is proposed. To analyze the vibration data, a preprocessing algorithm for determining train occupancy is applied first. After that, the data in the space–time domain occupied by the train is converted to the spectrogram which is in the frequency domain by using short-time Fourier transformation (STFT). In the third step, the spectrogram images are applied to the proposed 2D convolutional neural network (2D CNN) model and the network detects discontinuous rail positions along the track, which are geometrically distinct from continuous welded rails, such as rail breaks. In order to evaluate the superiority of the proposed network model, performance comparison tests with other existing models were conducted with data collected from an actual railway line. From the results, the proposed model could achieve 99.17%, 93.33%, 87.5%, 90.32% for accuracy, precision, recall, and F1 score, respectively, and the results show overwhelming detection performance compared to other models.

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基于二维卷积神经网络的不连续轨道位置分类初步研究,用于利用分布式声学传感数据检测断轨情况
断轨是铁路的关键维护问题,需要立即进行检查和维护,因为它可能导致严重的铁路事故。然而,即使维护和检测技术不断进步,要及时发现列车运行过程中出现的断轨现象仍然十分困难。作为对断轨检测系统的初步研究,本研究提出了一种基于深度学习的不连续轨道位置分类方法,该方法使用了列车运行过程中从分布式声学传感(DAS)系统获取的振动数据。在分析振动数据时,首先应用预处理算法确定列车占用率。然后,通过短时傅里叶变换(STFT)将列车占用时空域的数据转换为频域的频谱图。第三步,将频谱图图像应用于所提出的二维卷积神经网络(2D CNN)模型,该网络可检测出轨道上不连续的钢轨位置,这些位置在几何上有别于连续焊接的钢轨,例如钢轨断裂。为了评估所提出的网络模型的优越性,利用从实际铁路线收集的数据与其他现有模型进行了性能比较测试。从结果来看,所提出的模型在准确率、精确度、召回率和 F1 分数上分别达到了 99.17%、93.33%、87.5% 和 90.32%,与其他模型相比,其结果显示出压倒性的检测性能。
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CiteScore
5.80
自引率
4.30%
发文量
18
审稿时长
29 weeks
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