A Deep Learning-Based Fault Diagnosis Method for Flexible Converter Valve Equipment

被引：0

作者：

Guo, Jianbao ^{[1
]}

Liu, Hang ^{[1
]}

Feng, Lei ^{[1
]}

Zu, Lifeng ^{[2
]}

Ma, Taihu ^{[2
]}

Mu, Xiaole ^{[2
]}

机构：

[1] China Southern Power Grid, EHV Maintenance & Test Ctr, Guangzhou 510663, Peoples R China

[2] XJ Elect Flexible Transmiss Co, Xuchang 461000, Peoples R China

来源：

IEEE ACCESS | 2024年 / 12卷

关键词：

Bidirectional long short-term memory; channel attention module; deep learning; depth-wise convolution; fault diagnosis; flexible converter valve equipment; high voltage direct current system; lightweight; power system; time attention module;

D O I：

10.1109/ACCESS.2024.3427146

中图分类号：

TP [自动化技术、计算机技术];

学科分类号：

0812 ;

摘要：

Long-term failures in flexible converter valve equipment pose significant risks, potentially compromising operational efficiency or leading to complete malfunction. Accurately identifying equipment faults is essential to improve overall reliability and minimize downtime. This study introduces an innovative fault diagnosis method utilizing an attention mechanism. The method integrates a lightweight model incorporating one-dimension depthwise convolutional layers for spatial feature extraction and bidirectional long short-term memory for capturing temporal dynamics. A pioneering time-channel joint attention module enhances the extraction of fault-related data from time series and channel maps. Experimental results underscore the method's efficacy in fault diagnosis under varying Gaussian noise conditions. Notably, the approach demonstrates remarkable consistency in accuracy across various experimental setups, underscoring its robust performance and potential applicability in real-world scenarios where reliability is critical. In addition, the proposed method has a moderate number of parameters and training time, indicating that the model can be embedded in front-end equipment.

引用

页码：96481 / 96493

页数：13

共 50 条

[21] Deep Reinforcement Learning-Based Online Domain Adaptation Method for Fault Diagnosis of Rotating Machinery
Li, Guoqiang
Wu, Jun
Deng, Chao
Xu, Xuebing
Shao, Xinyu
IEEE-ASME TRANSACTIONS ON MECHATRONICS, 2022, 27 (05) : 2796 - 2805
[22] Deep learning-based fault diagnosis and localization method for fiber optic cables in communication networks
Zhang L.
Gao W.
Yan L.
Applied Mathematics and Nonlinear Sciences, 2024, 9 (01)
[23] A Robust Multi-Modal Deep Learning-Based Fault Diagnosis Method for PV Systems
Afrasiabi, Shahabodin
Allahmoradi, Sarah
Afrasiabi, Mousa
Liang, Xiaodong
Chung, C. Y.
Aghaei, Jamshid
IEEE OPEN ACCESS JOURNAL OF POWER AND ENERGY, 2024, 11 : 583 - 594
[24] Transfer Learning-Based Fault Diagnosis Method for Marine Turbochargers
Dong, Fei
Yang, Jianguo
Cai, Yunkai
Xie, Liangtao
ACTUATORS, 2023, 12 (04)
[25] An Ensemble Learning-Based Fault Diagnosis Method for Rotating Machinery
Tian, Jing
Azarian, Michael H.
Pecht, Michael
Niu, Gang
Li, Chuan
2017 PROGNOSTICS AND SYSTEM HEALTH MANAGEMENT CONFERENCE (PHM-HARBIN), 2017, : 96 - 101
[26] Ensemble deep learning-based fault diagnosis of rotor bearing systems
Ma, Sai
Chu, Fulei
COMPUTERS IN INDUSTRY, 2019, 105 : 143 - 152
[27] A Deep Learning-Based Fault Diagnosis of Leader-Following Systems
Liu, Xiaoxu
Lu, Xin
Gao, Zhiwei
IEEE ACCESS, 2022, 10 : 18695 - 18706
[28] Fault Diagnosis of a Reciprocating Compressor Air Valve Based on Deep Learning
Xiao, Shungen
Nie, Ang
Zhang, Zexiong
Liu, Shulin
Song, Mengmeng
Zhang, Hongli
APPLIED SCIENCES-BASEL, 2020, 10 (18):
[29] Deep Learning-based Intelligent Fault Diagnosis for Power Distribution Networks
Liu, J. Z.
Qu, Q. L.
Yang, H. Y.
Zhang, J. M.
Liu, Z. D.
INTERNATIONAL JOURNAL OF COMPUTERS COMMUNICATIONS & CONTROL, 2024, 19 (04)
[30] Deep learning-based fault diagnosis of planetary gearbox: A systematic review
Ahmad, Hassaan
Cheng, Wei
Xing, Ji
Wang, Wentao
Du, Shuhong
Li, Linying
Zhang, Rongyong
Chen, Xuefeng
Lu, Jinqi
JOURNAL OF MANUFACTURING SYSTEMS, 2024, 77 : 730 - 745

← 1 2 3 4 5 →