A Review of Turnout Switch Machine Fault Diagnosis Technology Based on Deep Learning
Journal Title: Urban Mass Transit - Year 2024, Vol 27, Issue 12
Abstract
[Objective] The turnout switch machine fault diagnosis techniques based on deep learning is summarized, the application status of various deep learning methods in turnout switch machine fault diagnosis is analyzed, their advantages and limitations are explored, and future research directions are proposed. [Method] The importance and challenges of turnout switch machine fault diagnosis are first introduced, followed by a comparative analysis of the characteristics of model-driven and data-driven diagnostic approaches. Then, fault diagnosis methods based on deep neural networks, autoencoders, convolutional neural networks, recurrent neural networks, and hybrid multi-deep models are elaborated in-depth, with comparisons of their respective performance characteristics. The limitations of current research, including the need for large amounts of labeled data, model complexity, and interpretability are discussed. Several future research directions are proposed. [Result & Conclusion] Turnout switch machine fault diagnosis techniques based on deep learning demonstrate strong capabilities in feature extraction and data processing, significantly improving diagnostic accuracy and efficiency. However, current deep learning methods face challenges such as the requirement for large datasets, high model complexity, and limited interpretability. Future research should focus on data preprocessing techniques, multi-source information fusion, diagnosis methods for imbalanced and small sample scenarios, transfer fault diagnosis, and interpretable deep diagnostic models to enhance the wide application and intelligence level of deep learning in turnout switch machine fault diagnosis.
Authors and Affiliations
Yunpeng LEI, Dong HAN, Pengfei TU, Suoming ZHU
Keywords
Related Articles
- EP ID EP752764
- DOI 10.16037/j.1007-869x.2024.12.059
- Views 4
- Downloads 0
Optimization of Train Operation Organization during Metro Catenary Collapse
[Objective] In the event of a collapsed non-redundant rigid catenary, it is essential to adjust train operation organization according to different collapse scenarios, minimizing the impact of the incident and reducing p...
Application of Lean Production Manufacturing Execution System in the Context of Intelligent Manufacturing
Objective In the context of intelligent manufacturing, the MES (manufacturing execution system), targeting the production line execution layer, is a core component of the information management system. With the rapid pro...
Research on Embedded Track System Vibration Transmission
Objective Embedded tracks have relatively high damping, providing good vibration and noise reduction performance. Therefore, it is necessary to study the vibration reduction mechanism of embedded track system. Method Tak...
Problems and Optimization Suggestions for Metro Interval Evacuation Design under Flood Conditions
Objective Evacuation in metro interval under flood conditions is often overlooked in metro engineering design. Besides, currently there are no industry standards for such scenarios. Attention should be paid to this issue...
Influence of Vertical Ground Motion on Seismic Response of Subway Station Co-structure System
Objective The co-structure system of subway station (hereinafter referred to as 'co-structure system') realizes the connection and conversion between the box structure and the box frame structure through thick plates. Du...