Early Bearing Fault Diagnosis of Rotating Machinery by 1d Self-Organized Operational Neural Networks

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dc.contributor.author İnce, Türker
dc.contributor.author Malik, Junaid
dc.contributor.author Devecioglu, Ozer Can
dc.contributor.author Kiranyaz, Serkan
dc.contributor.author Avcı, Onur
dc.contributor.author Eren, Levent
dc.contributor.author Gabbouj, Moncef
dc.date.accessioned 2023-06-16T14:25:21Z
dc.date.available 2023-06-16T14:25:21Z
dc.date.issued 2021
dc.description.abstract Preventive maintenance of modern electric rotating machinery (RM) is critical for ensuring reliable operation, preventing unpredicted breakdowns and avoiding costly repairs. Recently many studies investigated machine learning monitoring methods especially based on Deep Learning networks focusing mostly on detecting bearing faults; however, none of them addressed bearing fault severity classification for early fault diagnosis with high enough accuracy. 1D Convolutional Neural Networks (CNNs) have indeed achieved good performance for detecting RM bearing faults from raw vibration and current signals but did not classify fault severity. Furthermore, recent studies have demonstrated the limitation in terms of learning capability of conventional CNNs attributed to the basic underlying linear neuron model. Recently, Operational Neural Networks (ONNs) were proposed to enhance the learning capability of CNN by introducing non-linear neuron models and further heterogeneity in the network configuration. In this study, we propose 1D Self-organized ONNs (Self-ONNs) with generative neurons for bearing fault severity classification and providing continuous condition monitoring. Experimental results over the benchmark NSF/IMS bearing vibration dataset using both x- and y-axis vibration signals for inner race and rolling element faults demonstrate that the proposed 1D Self-ONNs achieve significant performance gap against the state-of-the-art (1D CNNs) with similar computational complexity. en_US
dc.description.sponsorship Danfoss; Konecranes; Raute within Business Finland en_US
dc.description.sponsorship This work was supported in part by Danfoss, Konecranes and Raute within Business Finland funded INDEX Program. en_US
dc.identifier.doi 10.1109/ACCESS.2021.3117603
dc.identifier.issn 2169-3536
dc.identifier.scopus 2-s2.0-85117470469
dc.identifier.uri https://doi.org/10.1109/ACCESS.2021.3117603
dc.identifier.uri https://hdl.handle.net/20.500.14365/1929
dc.language.iso en en_US
dc.publisher IEEE-Inst Electrical Electronics Engineers Inc en_US
dc.relation.ispartof Ieee Access en_US
dc.rights info:eu-repo/semantics/openAccess en_US
dc.subject Neurons en_US
dc.subject Computational modeling en_US
dc.subject Vibrations en_US
dc.subject Training en_US
dc.subject Convolutional neural networks en_US
dc.subject Convolution en_US
dc.subject Mathematical models en_US
dc.subject Convolutional neural networks en_US
dc.subject operational neural networks en_US
dc.subject early bearing fault detection en_US
dc.subject fault severity classification en_US
dc.subject condition monitoring of rotating elements en_US
dc.subject machine health monitoring en_US
dc.subject Motors en_US
dc.subject Signal en_US
dc.subject Model en_US
dc.title Early Bearing Fault Diagnosis of Rotating Machinery by 1d Self-Organized Operational Neural Networks en_US
dc.type Article en_US
dspace.entity.type Publication
gdc.author.id Eren, Levent/0000-0002-5804-436X
gdc.author.id Gabbouj, Moncef/0000-0002-9788-2323
gdc.author.id İnce, Türker/0000-0002-8495-8958
gdc.author.id Malik, Hafiz Muhammad Junaid/0000-0002-2750-4028
gdc.author.id Avcı, Onur/0000-0003-0221-7126
gdc.author.id kiranyaz, serkan/0000-0003-1551-3397
gdc.author.id Devecioglu, Ozer Can/0000-0002-9810-622X
gdc.author.scopusid 56259806600
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gdc.author.scopusid 7005332419
gdc.author.wosid Eren, Levent/T-2245-2019
gdc.author.wosid Gabbouj, Moncef/G-4293-2014
gdc.author.wosid Avcı, Onur/L-9803-2015
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gdc.coar.access open access
gdc.coar.type text::journal::journal article
gdc.collaboration.industrial false
gdc.description.department İzmir Ekonomi Üniversitesi en_US
gdc.description.departmenttemp [İnce, Türker; Eren, Levent] Izmir Univ Econ, Elect & Elect Engn Dept, TR-35330 Izmir, Turkey; [Malik, Junaid; Devecioglu, Ozer Can; Gabbouj, Moncef] Tampere Univ, Dept Comp Sci, Tampere 33100, Finland; [Kiranyaz, Serkan] Qatar Univ, Dept Elect Engn, Doha, Qatar; [Avcı, Onur] Iowa State Univ, Dept Civil Construct & Environm Engn, Ames, IA 50011 USA en_US
gdc.description.endpage 139270 en_US
gdc.description.publicationcategory Makale - Uluslararası Hakemli Dergi - Kurum Öğretim Elemanı en_US
gdc.description.scopusquality Q1
gdc.description.startpage 139260 en_US
gdc.description.volume 9 en_US
gdc.description.wosquality Q2
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gdc.oaire.keywords FOS: Computer and information sciences
gdc.oaire.keywords Failure analysis
gdc.oaire.keywords Computer Science - Machine Learning
gdc.oaire.keywords Computer Science - Artificial Intelligence
gdc.oaire.keywords operational neural networks
gdc.oaire.keywords Convolutional neural network
gdc.oaire.keywords Machine health monitoring
gdc.oaire.keywords 113
gdc.oaire.keywords Preventive maintenance
gdc.oaire.keywords Machine Learning (cs.LG)
gdc.oaire.keywords Bearing fault detection
gdc.oaire.keywords Early bearing fault detection
gdc.oaire.keywords Fault severity classification
gdc.oaire.keywords Neurons
gdc.oaire.keywords Rotating machinery
gdc.oaire.keywords machine health monitoring
gdc.oaire.keywords Deep learning
gdc.oaire.keywords 113 Computer and information sciences
gdc.oaire.keywords Operational neural network
gdc.oaire.keywords Convolution
gdc.oaire.keywords 620
gdc.oaire.keywords Condition monitoring
gdc.oaire.keywords TK1-9971
gdc.oaire.keywords Computer aided diagnosis
gdc.oaire.keywords condition monitoring of rotating elements
gdc.oaire.keywords Benchmarking
gdc.oaire.keywords Artificial Intelligence (cs.AI)
gdc.oaire.keywords Bearing fault
gdc.oaire.keywords Condition monitoring of rotating element
gdc.oaire.keywords Neural-networks
gdc.oaire.keywords early bearing fault detection
gdc.oaire.keywords Convolutional neural networks
gdc.oaire.keywords Electrical engineering. Electronics. Nuclear engineering
gdc.oaire.keywords Fault severities
gdc.oaire.keywords fault severity classification
gdc.oaire.keywords Fault detection
gdc.oaire.keywords Neural networks
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gdc.virtual.author İnce, Türker
gdc.virtual.author Eren, Levent
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