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- Title
Study on novel signal processing and simultaneous-fault diagnostic method for wind turbine.
- Authors
Wang, Xian-Bo; Miao, Pu; Zhang, Kun; Zhang, Xiaoyuan; Wang, Jun
- Abstract
High-precision fault diagnosis is important for the widely installed complex industrial product, the wind turbine. However, intelligent monitoring is difficult due to the fuzzy boundaries and individual different variations of the unseen single or simultaneous-fault of such intricate equipment. To solve this problem, this study proposes an ensemble fault diagnostic framework for simultaneous and coupling failure. First, this paper develops novel signal processing methods for effective feature learning and mapping from the non-stationary and nonlinear raw vibrational signals. The adapted variational mode decomposition is introduced based on the particle swarm optimization that applies the minimum mean envelope entropy to optimize the parameters settings. Second, the novel ensemble extreme learning machine-based network is proposed to isolate the faults that applies one extreme learning machine network to count the number of fault scenarios, and the other one to identify the specific single or simultaneous-fault labels. With this scheme, the self-adaptive ensemble extreme learning machine-based fault diagnostic framework is more accurate and faster than the prevailing probabilistic classifier-based methods, as the proposed method does not rely on empirically specified decision-making threshold and generates all the candidate fault labels at the same time. Finally, this study builds the test platform and compares the overall results with the existing feature analysis methods and classifiers. The experimental results verify that the proposed framework detects both single and simultaneous-fault accurately and quickly.
- Subjects
SIGNAL processing; FAULT diagnosis; MACHINE learning; PARTICLE swarm optimization; SELF-adaptive software; INDUSTRIAL goods; HILBERT-Huang transform; WIND turbines
- Publication
Transactions of the Institute of Measurement & Control, 2019, Vol 41, Issue 14, p4100
- ISSN
0142-3312
- Publication type
Article
- DOI
10.1177/0142331219849261