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Multi-objective Informative Frequency Band Selection Based on Negentropy-induced Grey Wolf Optimizer for Fault Diagnosis of Rolling Element Bearings

机译：基于各向异性的灰狼优化器的多目标信息频带选择在滚动轴承故障诊断中的应用

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摘要

Informative frequency band (IFB) selection is a challenging task in envelope analysis for the localized fault detection of rolling element bearings. In previous studies, it was often conducted with a single indicator, such as kurtosis, etc., to guide the automatic selection. However, in some cases, it is difficult for that to fully depict and balance the fault characters from impulsiveness and cyclostationarity of the repetitive transients. To solve this problem, a novel negentropy-induced multi-objective optimized wavelet filter is proposed in this paper. The wavelet parameters are determined by a grey wolf optimizer with two independent objective functions i.e., maximizing the negentropy of squared envelope and squared envelope spectrum to capture impulsiveness and cyclostationarity, respectively. Subsequently, the average negentropy is utilized in identifying the IFB from the obtained Pareto set, which are non-dominated by other solutions to balance the impulsive and cyclostationary features and eliminate the background noise. Two cases of real vibration signals with slight bearing faults are applied in order to evaluate the performance of the proposed methodology, and the results demonstrate its effectiveness over some fast and optimal filtering methods. In addition, its stability in tracking the IFB is also tested by a case of condition monitoring data sets.

机译：在包络分析中，对于滚动轴承的局部故障检测，信息频带（IFB）的选择是一项艰巨的任务。在以前的研究中，通常使用单个指标（例如峰度等）进行指导自动选择。但是，在某些情况下，很难完全描绘和平衡重复性瞬态的脉冲性和循环平稳性引起的故障特征。为了解决这个问题，本文提出了一种新型的各向异性诱导多目标优化小波滤波器。小波参数由具有两个独立目标函数的灰狼优化器确定，即最大化平方包络和平方包络谱的负熵以分别捕获冲动和循环平稳性。随后，平均负熵被用于从获得的帕累托集中识别IFB，该IFB不受其他解决方案的支配，以平衡脉冲和循环平稳特征并消除背景噪声。为了评估所提出方法的性能，应用了两种情况下带有轻微轴承故障的真实振动信号，以证明该方法在某些快速和最佳滤波方法上的有效性。此外，还通过状态监视数据集来测试其跟踪IFB的稳定性。

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期刊名称 Sensors (Basel Switzerland)
作者
Xiaohui Gu; Shaopu Yang; Yongqiang Liu; Rujiang Hao; Zechao Liu;
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作者单位

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年(卷),期 2020(20),7
年度 2020
页码 -1
总页数 23
原文格式 PDF
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关键词
bearing; fault diagnosis; multi-objective optimization; grey wolf optimizer; wavelet filter; negentropy;

机译：轴承;故障诊断;多目标优化;灰太狼优化器;小波滤波器;负熵;

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专利

1. Multi-objective iterative optimization algorithm based optimal wavelet filter selection for multi-fault diagnosis of rolling element bearings [J] . Ding Chuancang, Zhao Ming, Lin Jing, ISA Transactions . 2019,第期

机译：基于多目标迭代优化算法的基于滚动元件轴承多故障诊断的最优小波滤波器选择
2. An integrated method based on hybrid grey wolf optimizer improved variational mode decomposition and deep neural network for fault diagnosis of rolling bearing [J] . Gai Jingbo, Shen Junxian, Hu Yifan, Measurement . 2020,第1期

机译：基于混合灰狼优化器的综合方法改进了变分模分解和深神经网络，用于滚动轴承的故障诊断
3. An Adaptive Periodical Stochastic Resonance Method Based on the Grey Wolf Optimizer Algorithm and Its Application in Rolling Bearing Fault Diagnosis [J] . Hu Bingbing, Guo Chang, Wu Jimei, Journal of Vibration and Acoustics . 2019,第4期

机译：基于灰狼优化算法的自适应周期性随机共振方法及其在滚动轴承故障诊断中的应用
4. A Novel Method for the Optimal Frequency Band Selection of Rolling Element Bearing Faults Diagnosis Based on Frequency Domain Multipoint Kurtogram [C] . Wenpeng Liu, Shaopu Yang, Yongqiang Liu Prognostics and System Health Management Conference . 2018

机译：基于频域多点Kurtogram的滚动轴承故障诊断最优频带选择的新方法
5. Fault detection, diagnosis and prognosis of rolling element bearings: Frequency domain methods and hidden Markov modeling. [D] . Ocak, Hasan. 2004

机译：滚动轴承的故障检测，诊断和预测：频域方法和隐马尔可夫建模。
6. A Novel Method of Frequency Band Selection for Squared Envelope Analysis for Fault Diagnosing of Rolling Element Bearings in a Locomotive Powertrain [O] . Lang Xu, Steven Chatterton, Paolo Pennacchi 2018

机译：机车动力总成滚动轴承故障诊断的平方包络分析频带选择新方法
7. Multi-objective Informative Frequency Band Selection Based on Negentropy-induced Grey Wolf Optimizer for Fault Diagnosis of Rolling Element Bearings [O] . Xiaohui Gu, Shaopu Yang, Yongqiang Liu, 2020

机译：基于共度型灰狼优化器的滚动元件轴承故障诊断的多目标信息频段选择
8. Sync-Period Frequency Analysis and Its Application to the Diagnosis of MultipleElement Defects of Rolling Bearings [R] . Wang, W. Y., Harrap, M. J. 1996

机译：同步周期频率分析及其在滚动轴承多元素缺陷诊断中的应用

Multi-objective Informative Frequency Band Selection Based on Negentropy-induced Grey Wolf Optimizer for Fault Diagnosis of Rolling Element Bearings

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