Deep Residual Shrinkage Networks for Fault Diagnosis

被引：875

作者：

Zhao, Minghang ^{[1
]}

Zhong, Shisheng ^{[1
]}

Fu, Xuyun ^{[1
]}

Tang, Baoping ^{[2
]}

Pecht, Michael ^{[3
]}

机构：

[1] Harbin Inst Technol, Sch Naval Architecture & Ocean Engn, Weihai 264209, Peoples R China

[2] Chongqing Univ, State Key Lab Mech Transmission, Chongqing 400044, Peoples R China

[3] Univ Maryland, Ctr Adv Life Cycle Engn, College Pk, MD 20742 USA

来源：

IEEE TRANSACTIONS ON INDUSTRIAL INFORMATICS | 2020年 / 16卷 / 07期

基金：

中国国家自然科学基金;

关键词：

Convolution; Fault diagnosis; Vibrations; Kernel; Deep learning; Rotating machines; Neural networks; deep residual networks; fault diagnosis; soft thresholding; vibration signal; PLANETARY GEARBOXES; NEURAL-NETWORK; VIBRATION;

D O I：

10.1109/TII.2019.2943898

中图分类号：

TP [自动化技术、计算机技术];

学科分类号：

0812 ;

摘要：

This article develops new deep learning methods, namely, deep residual shrinkage networks, to improve the feature learning ability from highly noised vibration signals and achieve a high fault diagnosing accuracy. Soft thresholding is inserted as nonlinear transformation layers into the deep architectures to eliminate unimportant features. Moreover, considering that it is generally challenging to set proper values for the thresholds, the developed deep residual shrinkage networks integrate a few specialized neural networks as trainable modules to automatically determine the thresholds, so that professional expertise on signal processing is not required. The efficacy of the developed methods is validated through experiments with various types of noise.

引用

页码：4681 / 4690

页数：10

共 50 条

[41] Specific Emitter Identification for IoT Devices Based on Deep Residual Shrinkage Networks
Peng Tang
Yitao Xu
Guofeng Wei
Yang Yang
Chao Yue
[J]. China Communications, 2021, 18 (12) : 81 - 93
[42] Image Motion Deblurring Based on Deep Residual Shrinkage and Generative Adversarial Networks
Jiang, Wenbo
Liu, Anshun
[J]. COMPUTATIONAL INTELLIGENCE AND NEUROSCIENCE, 2022, 2022
[43] Multireceptive Field Denoising Residual Convolutional Networks for Fault Diagnosis
Xu, Yadong
Yan, Xiaoan
Sun, Beibei
Zhai, Jinhui
Liu, Zheng
[J]. AMERICAN JOURNAL OF CLINICAL NUTRITION, 2021, : 11686 - 11696
[44] Multireceptive Field Denoising Residual Convolutional Networks for Fault Diagnosis
Xu, Yadong
Yan, Xiaoan
Sun, Beibei
Zhai, Jinhui
Liu, Zheng
[J]. IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS, 2022, 69 (11) : 11686 - 11696
[45] Deep adaptive sparse residual networks: A lifelong learning framework for rotating machinery fault diagnosis with domain increments
Zhang, Yan
Shen, Changqing
Shi, Juanjuan
Li, Chuan
Lin, Xinhai
Zhu, Zhongkui
Wang, Dong
[J]. KNOWLEDGE-BASED SYSTEMS, 2024, 293
[46] Fault diagnosis of rotating machinery based on improved deep residual network
Hou Z.
Wang H.
Zhou L.
Fu Q.
[J]. Xi Tong Gong Cheng Yu Dian Zi Ji Shu/Systems Engineering and Electronics, 2022, 44 (06): : 2051 - 2059
[47] Fault Diagnosis for Rolling Bearing Based on Deep Residual Neural Network
Sun, Yi
Gao, Hongli
Hong, Xin
Song, Hongliang
Liu, Qi
[J]. 2018 INTERNATIONAL CONFERENCE ON SENSING, DIAGNOSTICS, PROGNOSTICS, AND CONTROL (SDPC), 2018, : 421 - 425
[48] Input Feature Mappings-Based Deep Residual Networks for Fault Diagnosis of Rolling Element Bearing With Complicated Dataset
Hou, Liangsheng
Jiang, Ruizheng
Tan, Yanghui
Zhang, Jundong
[J]. IEEE ACCESS, 2020, 8 : 180967 - 180976
[49] Deep Fuzzy Echo State Networks for Machinery Fault Diagnosis
Zhang, Shaohui
Sun, Zhenzhong
Wang, Man
Long, Jianyu
Bai, Yun
Li, Chuan
[J]. IEEE TRANSACTIONS ON FUZZY SYSTEMS, 2020, 28 (07) : 1205 - 1218
[50] Fault Diagnosis of Rolling Bearing using Deep Belief Networks
Tao Jie
Liu Yi-Lun
Yang Da-Lian
Tang Fang
Liu Chi
[J]. PROCEEDINGS OF THE 2015 INTERNATIONAL SYMPOSIUM ON MATERIAL, ENERGY AND ENVIRONMENT ENGINEERING (ISM3E 2015), 2016, 46 : 566 - 569

← 1 2 3 4 5 →