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 23
- Downloads 1
Stress Analysis of Fatigue Fracture in Primary Steel Springs for Urban Rail Transit Vehicle Bogies
[Objective] Bogies of urban rail transit vehicles often adopt a swing-arm positioning structure, within which the primary steel springs are prone to fracture, and typical fractures occur at the first working coil in co...
Research on Personnel Excavation in Metro Station Fire Based on Real-time Key Indicator Validation
[Objective] The objective is to accurately assess whether individuals can safely evacuate during a metro station fire, promptly identify and prevent people from entering hazardous areas, providing effective measures and...
Muck Improvement Technology for Connection Passage of Shield Tunneling Metro Tunnels in Coastal Areas
[Objective] In the process of the earth pressure balance shield machine advancing in the coastal area cohesive soil layer, phenomena such as mud cake formation, unsmooth muck discharge, and blockage of the soil chamber...
Research on Maintenance Modes of City Rail Transit Vehicles
[Objective] City rail transit vehicles are specifically designed and developed models to adapt to city rail transit lines, differing in operational environment, line parameters, and vehicle configurations from high-spe...
Influence Analysis of Suspended Monorail Track Beam on Vehicle Running Stability
Objective Influenced by the track beam, the suspended monorail vehicle is prone to yaw motion during running, which significantly affects the vehicle′s stability. Therefore, it is necessary to analyze the causes of the y...