Deep learning-based fault detection in railway wheelsets using time series analysis

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY Mehran University Research Journal of Engineering and Technology Pub Date : 2023-07-21 DOI:10.22581/muet1982.2303.15
Khurram Shaikh, I. Hussain, B. S. Chowdhry
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引用次数: 0

Abstract

Maintenance of Railway rolling stock is usually scheduled based. However, the mechanical parts, especially the wheelset may wear down prematurely due to several factors such as excessive braking and traction forces and environmental conditions. This makes the scheduled maintenance less effective and sometimes it results in derailments. This paper presents a deep learning-based technique to detect wheel conditions so that maintenance can be performed promptly and efficiently. A time series dataset of axle vibrations is generated using a simulation model of the wheelset. The dataset is then used to train and test the deep learning model. Long short-term memory (LSTM) architecture is selected for this application since it is designed to perform better for time series datasets. The results show good performance in terms of training and testing accuracy. The model is tested in different defect scenarios and the mean square error in the prediction of railway wheelset parameters is around 15%.
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基于时间序列分析的深度学习铁路轮对故障检测
铁路机车车辆的维护通常是按计划进行的。然而,由于过度的制动力和牵引力以及环境条件等因素,机械部件,尤其是轮对可能会过早磨损。这会降低定期维护的效率,有时还会导致脱轨。本文提出了一种基于深度学习的技术来检测车轮状况,以便及时有效地进行维护。使用轮对的仿真模型生成了车轴振动的时间序列数据集。然后使用该数据集来训练和测试深度学习模型。长短期内存(LSTM)架构被选择用于此应用程序,因为它被设计为在时间序列数据集上表现更好。结果表明,在训练和测试准确性方面表现良好。该模型在不同的缺陷场景下进行了测试,铁路轮对参数预测的均方误差约为15%。
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发文量
76
审稿时长
40 weeks
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