基于振动和声学传感器数据的工业故障诊断深度迁移学习模型综述

IF 1.9 Q3 ENGINEERING, MECHANICAL
Vibration Pub Date : 2023-02-17 DOI:10.3390/vibration6010014
Md Roman Bhuiyan, J. Uddin
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引用次数: 10

摘要

为了评估最终质量,用于发现轴承缺陷的无损检测技术越来越受欢迎。基于视觉的图像处理技术在缺陷识别、检测和分类方面的精度大大提高。深度迁移学习(DTL)是一种机器学习,它结合了迁移学习(TL)在知识转移方面的优势和深度学习(DL)在特征表示方面的优势。因此,智能故障诊断学科对DTL方法进行了广泛的开发和研究。它们可以提高基于DL的故障诊断技术(IFD)的鲁棒性、可靠性和实用性。IFD一直是几项深入而优秀的研究的主题,尽管大多数研究都是从算法的角度评估重要研究,而忽略了现实世界中的应用。基于DTL的IFD策略也尚未经过全面评估。鉴于此,有必要和必要查阅基于DTL的IFD相关出版物。读者将能够掌握最前沿的概念,并为他们可能遇到的任何IFD挑战制定实用的解决方案。在描述如何将迁移学习算法纳入深度学习模型之前,简要讨论了DTL背后的理论。这项研究着眼于利用振动声传感器数据进行缺陷检测和识别的许多基于视觉的方法。这篇综述的目的是评估视觉检查系统的研究现状。在这方面,探索了图像处理以及深度学习、机器学习、迁移学习、少镜头学习和轻量级方法及其选择。本文综述了缺陷分类器和基于视觉的故障检测系统的创建。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Deep Transfer Learning Models for Industrial Fault Diagnosis Using Vibration and Acoustic Sensors Data: A Review
In order to evaluate final quality, nondestructive testing techniques for finding bearing flaws have grown in favor. The precision of image processing-based vision-based technology has greatly improved for defect identification, inspection, and classification. Deep Transfer Learning (DTL), a kind of machine learning, combines the superiority of Transfer Learning (TL) for knowledge transfer with the benefits of Deep Learning (DL) for feature representation. As a result, the discipline of Intelligent Fault Diagnosis has extensively developed and researched DTL approaches. They can improve the robustness, reliability, and usefulness of DL-based fault diagnosis techniques (IFD). IFD has been the subject of several thorough and excellent studies, although most of them have appraised important research from an algorithmic standpoint, neglecting real-world applications. DTL-based IFD strategies have also not yet undergone a full evaluation. It is necessary and imperative to go through the relevant DTL-based IFD publications in light of this. Readers will be able to grasp the most cutting-edge concepts and develop practical solutions to any IFD challenges they may encounter by doing this. The theory behind DTL is briefly discussed before describing how transfer learning algorithms may be included into deep learning models. This research study looks at a number of vision-based methods for defect detection and identification utilizing vibration acoustic sensor data. The goal of this review is to assess where vision inspection system research is right now. In this respect, image processing as well as deep learning, machine learning, transfer learning, few-shot learning, and light-weight approach and its selection were explored. This review addresses the creation of defect classifiers and vision-based fault detection systems.
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CiteScore
3.20
自引率
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