Data-Driven Approaches for Diagnosis of Incipient Faults in Cutting Arms of the Roadheader

Data-Driven Approaches for Diagnosis of Incipient Faults in Cutting Arms of the Roadheader

Incipient fault detection and identification (IFDI) of cutting arms is a crucial guarantee for the smooth operation of a roadheader. However, the shortage of fault samples restricts the application of the fault diagnosis technique, and the data analysis tools should be optimized efficiently. In this...

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Main Authors: Qiang Liu, Songyong Liu, Qianjin Dai, Xiao Yu, Daoxiang Teng, Ming Wei
Format: Article
Language:English
Published: Hindawi Limited 2021-01-01
Series:Shock and Vibration
Online Access:http://dx.doi.org/10.1155/2021/8865068
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spelling doaj-bc1adadc8db645f2ad387bb7381ff2d62021-02-22T00:00:39ZengHindawi LimitedShock and Vibration1875-92032021-01-01202110.1155/2021/8865068Data-Driven Approaches for Diagnosis of Incipient Faults in Cutting Arms of the RoadheaderQiang Liu0Songyong Liu1Qianjin Dai2Xiao Yu3Daoxiang Teng4Ming Wei5School of Mechatronic EngineeringSchool of Mechatronic EngineeringSchool of Physics and New EnergySchool of Mechatronic EngineeringSchool of Physics and New EnergySchool of Physics and New EnergyIncipient fault detection and identification (IFDI) of cutting arms is a crucial guarantee for the smooth operation of a roadheader. However, the shortage of fault samples restricts the application of the fault diagnosis technique, and the data analysis tools should be optimized efficiently. In this study, four machine learning tools (the back-propagation neural network based on genetic algorithm optimization, the naive Bayes based on genetic algorithm optimization, the support vector machines based on particle swarm optimization, and the support vector machines based on dynamic cuckoo) are applied to address the challenge in the IFDI of cutting arms. The commonly measured current and vibration data cutting arms are used in the IFDI. The experimental results show that the support vector machines based on dynamic cuckoo outperform the other methods. Besides, the performance of the four methods under different operating conditions is compared. The fault cause of cutting arms of the roadheader is analyzed and the design improvement scheme for cutting arms is provided. This study provides a reference for improving the fault diagnosis of the roadheader.http://dx.doi.org/10.1155/2021/8865068
collection DOAJ
language English
format Article
sources DOAJ
author Qiang Liu
Songyong Liu
Qianjin Dai
Xiao Yu
Daoxiang Teng
Ming Wei
spellingShingle Qiang Liu
Songyong Liu
Qianjin Dai
Xiao Yu
Daoxiang Teng
Ming Wei
Data-Driven Approaches for Diagnosis of Incipient Faults in Cutting Arms of the Roadheader
Shock and Vibration
author_facet Qiang Liu
Songyong Liu
Qianjin Dai
Xiao Yu
Daoxiang Teng
Ming Wei
author_sort Qiang Liu
title Data-Driven Approaches for Diagnosis of Incipient Faults in Cutting Arms of the Roadheader
title_short Data-Driven Approaches for Diagnosis of Incipient Faults in Cutting Arms of the Roadheader
title_full Data-Driven Approaches for Diagnosis of Incipient Faults in Cutting Arms of the Roadheader
title_fullStr Data-Driven Approaches for Diagnosis of Incipient Faults in Cutting Arms of the Roadheader
title_full_unstemmed Data-Driven Approaches for Diagnosis of Incipient Faults in Cutting Arms of the Roadheader
title_sort data-driven approaches for diagnosis of incipient faults in cutting arms of the roadheader
publisher Hindawi Limited
series Shock and Vibration
issn 1875-9203
publishDate 2021-01-01
description Incipient fault detection and identification (IFDI) of cutting arms is a crucial guarantee for the smooth operation of a roadheader. However, the shortage of fault samples restricts the application of the fault diagnosis technique, and the data analysis tools should be optimized efficiently. In this study, four machine learning tools (the back-propagation neural network based on genetic algorithm optimization, the naive Bayes based on genetic algorithm optimization, the support vector machines based on particle swarm optimization, and the support vector machines based on dynamic cuckoo) are applied to address the challenge in the IFDI of cutting arms. The commonly measured current and vibration data cutting arms are used in the IFDI. The experimental results show that the support vector machines based on dynamic cuckoo outperform the other methods. Besides, the performance of the four methods under different operating conditions is compared. The fault cause of cutting arms of the roadheader is analyzed and the design improvement scheme for cutting arms is provided. This study provides a reference for improving the fault diagnosis of the roadheader.
url http://dx.doi.org/10.1155/2021/8865068
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AT songyongliu datadrivenapproachesfordiagnosisofincipientfaultsincuttingarmsoftheroadheader
AT qianjindai datadrivenapproachesfordiagnosisofincipientfaultsincuttingarmsoftheroadheader
AT xiaoyu datadrivenapproachesfordiagnosisofincipientfaultsincuttingarmsoftheroadheader
AT daoxiangteng datadrivenapproachesfordiagnosisofincipientfaultsincuttingarmsoftheroadheader
AT mingwei datadrivenapproachesfordiagnosisofincipientfaultsincuttingarmsoftheroadheader
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