A hybrid model for bearing performance degradation assessment based on support vector data description and fuzzy c-means

被引:28
|
作者
Pan, Y. N. [1 ]
Chen, J. [1 ]
Dong, G. M. [1 ]
机构
[1] Shanghai Jiao Tong Univ, State Key Lab Mech Syst & Vibrat, Shanghai 200240, Peoples R China
来源
PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART C-JOURNAL OF MECHANICAL ENGINEERING SCIENCE | 2009年 / 223卷 / 11期
基金
国家高技术研究发展计划(863计划);
关键词
performance degradation assessment; Support vector data description; fuzzy c-means; accelerated bearing life test; ROLLING ELEMENT BEARINGS; FAULT-DETECTION; MACHINE; VIBRATION; DIAGNOSIS; ALGORITHM; SCHEME;
D O I
10.1243/09544062JMES1447
中图分类号
TH [机械、仪表工业];
学科分类号
0802 ;
摘要
Bearing performance degradation assessment is more effective than fault diagnosis to realize condition-based maintenance. In this article, a hybrid model is proposed for it based on a support vector data description (SVDD) and fuzzy c-means (F-CM). SVDD, which holds excellent robustness to Outliers. is used to obtain the clustering centre of normal state. The subjection of tested data to normal state is defined as a degradation indicator, which is computed by a FCM algorithm with final failure data. The results of applying this hybrid model to an accelerated bearing life test show that it can effectively assess bearing performance degradation. Furthermore, it is robust to the outliers in the training set and IS not influenced by the Gaussian kernel parameter.
引用
收藏
页码:2687 / 2695
页数:9
相关论文
共 50 条
  • [41] Research on Gluing Control System Based on Support Vector Data Description and Fuzzy Control
    Zhang, Yizhuo
    Yu, Huiling
    Cao, Jun
    2010 INTERNATIONAL COLLOQUIUM ON COMPUTING, COMMUNICATION, CONTROL, AND MANAGEMENT (CCCM2010), VOL IV, 2010, : 51 - 54
  • [42] Unconstrained Fuzzy C-Means Based on Entropy Regularization: An Equivalent Model
    Nie, Feiping
    Zhang, Runxin
    Duan, Yu
    Wang, Rong
    IEEE TRANSACTIONS ON KNOWLEDGE AND DATA ENGINEERING, 2025, 37 (02) : 979 - 990
  • [43] Fuzzy c-Means Clustering for Uncertain Data Using Quadratic Penalty-Vector Regularization
    Endo, Yasunori
    Hasegawa, Yasushi
    Yukihiro, Hamasuna
    Kanzawa, Yuchi
    JOURNAL OF ADVANCED COMPUTATIONAL INTELLIGENCE AND INTELLIGENT INFORMATICS, 2011, 15 (01) : 76 - 82
  • [44] A size-insensitive integrity-based fuzzy c-means method for data clustering
    Lin, Phen-Lan
    Huang, Po-Whei
    Kuo, C. H.
    Lai, Y. H.
    PATTERN RECOGNITION, 2014, 47 (05) : 2042 - 2056
  • [45] Automatic detection of lung cancer nodules by employing intelligent fuzzy c-means and support vector machine
    Sakthivel, K.
    Jayanthiladevi, A.
    Kavitha, C.
    BIOMEDICAL RESEARCH-INDIA, 2016, 27 : S123 - S127
  • [46] A Fuzzy Least Square Support Tensor Machines Based on Support Vector Data Description
    Zhang, Ruiting
    Kang, Yuting
    INFORMATION TECHNOLOGY AND INTELLIGENT TRANSPORTATION SYSTEMS, VOL 2, 2017, 455 : 381 - 388
  • [47] Incomplete data fuzzy C-means method based on spatial distance of sample
    Cao, Jingyi
    Zhong, Chongquan
    Li, Dan
    PROCEEDINGS OF THE 38TH CHINESE CONTROL CONFERENCE (CCC), 2019, : 7618 - 7622
  • [48] Missing value estimation for microarray data based on fuzzy C-means clustering
    Luo, JiaWei
    Yang, Tao
    Wang, Yan
    Eighth International Conference on High-Performance Computing in Asia-Pacific Region, Proceedings, 2005, : 611 - 616
  • [49] Performance Evaluation of Change Detection in SAR Images Based on Hybrid Antlion DWT Fuzzy c-Means Clustering
    Kumar, J. Thrisul
    Rani, B. M. S.
    Kumar, M. Satish
    Raju, M., V
    Das, K. Maria
    CYBERNETICS AND INFORMATION TECHNOLOGIES, 2021, 21 (02) : 45 - 57
  • [50] Ant Colony Based Fuzzy C-Means Clustering for Very Large Data
    Mullick, Dhruv
    Garg, Ayush
    Bajaj, Arpit
    Garg, Ayush
    Aggarwal, Swati
    ADVANCES IN FUZZY LOGIC AND TECHNOLOGY 2017, VOL 2, 2018, 642 : 578 - 591
12345