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    Ferrograph Analysis With Improved Particle Segmentation and Classification Methods

    Source: Journal of Computing and Information Science in Engineering:;2020:;volume( 020 ):;issue: 002::page 021001-1
    Author:
    Wang, Shuo
    ,
    Wu, Tonghai
    ,
    Wang, Kunpeng
    ,
    Sarkodie-Gyan, Thompson
    DOI: 10.1115/1.4045291
    Publisher: The American Society of Mechanical Engineers (ASME)
    Abstract: Ferrograph analysis has been adopted over decades for determining the root causes of on-going wear faults. After decades of manual operation, this traditional technique is being driven by intelligent algorithms for automatic identification of wear debris. However, the accuracy and robustness of this algorithm remain marginalized when applied in industries due to various types and color blurry of particles. To address this issue, this paper introduces an automatic ferrograph analysis model with a segmentation method and a two-level classification strategy. In order to obtain wear particles from the color ferrograph image, an adaptive Otsu threshold is adopted in three channel images to solve the color blurry in particle segmentation. By grouping particle parameters into shape and morphology ones, a two-level identification strategy is proposed. The first one is to classify rubbing, cutting, and spherical particles, referring to the fuzzy approach degree of shape parameters. In the second level, the shape-close particles are classified with imperceptible textures and back propagation neural network (BPNN). These objective parameters are constructed by applying the principal component analysis into seven texture features and inputted into a BPNN-based model to classify fatigue and severe sliding particles. In order to train the BPNN, more than 100 ferrograph images are sampled together, whereby standard ferrograph analysis is performed on the particle identification. The performance of the identification exhibits an accuracy exceeding 90% for rubbing, cutting, and spherical particles, whereas about 80% accuracy has been registered for both severe sliding and fatigue particles.
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      Ferrograph Analysis With Improved Particle Segmentation and Classification Methods

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    http://yetl.yabesh.ir/yetl1/handle/yetl/4275656
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    contributor authorWang, Shuo
    contributor authorWu, Tonghai
    contributor authorWang, Kunpeng
    contributor authorSarkodie-Gyan, Thompson
    date accessioned2022-02-04T22:53:50Z
    date available2022-02-04T22:53:50Z
    date copyright4/1/2020 12:00:00 AM
    date issued2020
    identifier issn1530-9827
    identifier otherjcise_20_2_021001.pdf
    identifier urihttp://yetl.yabesh.ir/yetl1/handle/yetl/4275656
    description abstractFerrograph analysis has been adopted over decades for determining the root causes of on-going wear faults. After decades of manual operation, this traditional technique is being driven by intelligent algorithms for automatic identification of wear debris. However, the accuracy and robustness of this algorithm remain marginalized when applied in industries due to various types and color blurry of particles. To address this issue, this paper introduces an automatic ferrograph analysis model with a segmentation method and a two-level classification strategy. In order to obtain wear particles from the color ferrograph image, an adaptive Otsu threshold is adopted in three channel images to solve the color blurry in particle segmentation. By grouping particle parameters into shape and morphology ones, a two-level identification strategy is proposed. The first one is to classify rubbing, cutting, and spherical particles, referring to the fuzzy approach degree of shape parameters. In the second level, the shape-close particles are classified with imperceptible textures and back propagation neural network (BPNN). These objective parameters are constructed by applying the principal component analysis into seven texture features and inputted into a BPNN-based model to classify fatigue and severe sliding particles. In order to train the BPNN, more than 100 ferrograph images are sampled together, whereby standard ferrograph analysis is performed on the particle identification. The performance of the identification exhibits an accuracy exceeding 90% for rubbing, cutting, and spherical particles, whereas about 80% accuracy has been registered for both severe sliding and fatigue particles.
    publisherThe American Society of Mechanical Engineers (ASME)
    titleFerrograph Analysis With Improved Particle Segmentation and Classification Methods
    typeJournal Paper
    journal volume20
    journal issue2
    journal titleJournal of Computing and Information Science in Engineering
    identifier doi10.1115/1.4045291
    journal fristpage021001-1
    journal lastpage021001-8
    page8
    treeJournal of Computing and Information Science in Engineering:;2020:;volume( 020 ):;issue: 002
    contenttypeFulltext
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    DSpace software copyright © 2002-2015  DuraSpace
    نرم افزار کتابخانه دیجیتال "دی اسپیس" فارسی شده توسط یابش برای کتابخانه های ایرانی | تماس با یابش
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