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一种基于多岛遗传算法改进的变分模态分解及多特征的滚动轴承故障诊断新方法。

A Novel Method Based on Multi-Island Genetic Algorithm Improved Variational Mode Decomposition and Multi-Features for Fault Diagnosis of Rolling Bearing.

作者信息

Liang Tao, Lu Hao

机构信息

School of Artificial Intelligence and Data Science, Hebei University of Technology, Tianjin 300401, China.

出版信息

Entropy (Basel). 2020 Sep 7;22(9):995. doi: 10.3390/e22090995.

DOI:10.3390/e22090995
PMID:33286764
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7597321/
Abstract

Aiming at the problem that it is difficult to extract fault features from the nonlinear and non-stationary vibration signals of wind turbine rolling bearings, which leads to the low diagnosis and recognition rate, a feature extraction method based on multi-island genetic algorithm (MIGA) improved variational mode decomposition (VMD) and multi-features is proposed. The decomposition effect of the VMD method is limited by the number of decompositions and the selection of penalty factors. This paper uses MIGA to optimize the parameters. The improved VMD method is used to decompose the vibration signal into a number of intrinsic mode functions (IMF), and a group of components containing the most information is selected through the Holder coefficient. For these components, multi-features based on Renyi entropy feature, singular value feature, and Hjorth parameter feature are extracted as the final feature vector, which is input to the classifier to realize the fault diagnosis of rolling bearing. The experimental results prove that the proposed method can more effectively extract the fault characteristics of rolling bearings. The fault diagnosis model based on this method can accurately identify bearing signals of 16 different fault types, severity, and damage points.

摘要

针对风力发电机组滚动轴承非线性、非平稳振动信号故障特征提取困难,导致诊断识别率低的问题,提出一种基于多岛遗传算法(MIGA)改进的变分模态分解(VMD)和多特征的特征提取方法。VMD方法的分解效果受分解层数和惩罚因子选择的限制,本文采用MIGA对参数进行优化。利用改进的VMD方法将振动信号分解为若干个本征模态函数(IMF),通过Hölder系数选取一组包含信息最多的分量。对这些分量提取基于Renyi熵特征、奇异值特征和Hjorth参数特征的多特征作为最终特征向量,输入到分类器中实现滚动轴承的故障诊断。实验结果表明,所提方法能更有效地提取滚动轴承的故障特征。基于该方法的故障诊断模型能够准确识别16种不同故障类型、严重程度和损伤点的轴承信号。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a6b3/7597321/75999f64d61b/entropy-22-00995-g014.jpg
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EEG analysis based on time domain properties.基于时域特性的脑电图分析。
C-InGAN模型在轴承故障诊断可解释特征中的应用
Entropy (Basel). 2024 May 31;26(6):480. doi: 10.3390/e26060480.
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Rolling Bearing Fault Diagnosis Based on Successive Variational Mode Decomposition and the EP Index.基于连续变分模态分解和EP指标的滚动轴承故障诊断
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