Feature cognitive model combined by an improved variational mode and singular value decomposition for fault signals

IF 1.2 Q4 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Jinxiang Chen, Zhu Zhu, Xiaoda Zhang
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引用次数: 3

Abstract

A feature cognitive model combined with an improved variational mode and singular value decomposition is presented to recognise the characteristics of the fault signals from vibration signals of mechanical equipment in this study. Specifically, the variational mode model is constructed firstly to decompose the known fault signals for mechanical equipment with the same load. Singular value decomposition approach is applied to recognise further the inherent modal features of the fault signals and construct the feature set. The supervised learning-support vector machine and the unsupervised learning-fuzzy c-means clustering are used to verify the effectiveness of the presented method. Finally, the provided feature cognitive model is used to recognise the bearing faults to verify its effectiveness. From simulation results, it can be seen that compared to the complete integration empirical mode decomposition method, the feature cognitive model combined by an improved variational mode and singular value decomposition can obtain more higher accuracy and larger evaluation coefficients. It is worth mentioning that the presented method can also be applied to recognise the key characteristics of the other signals.

Abstract Image

基于改进变分模型和奇异值分解的故障信号特征认知模型
本文提出了一种结合改进变分模型和奇异值分解的特征认知模型,用于识别机械设备振动信号中的故障信号特征。具体而言,首先构建变分模态模型,对具有相同负荷的机械设备的已知故障信号进行分解;采用奇异值分解方法进一步识别故障信号固有的模态特征,构造特征集。采用监督学习-支持向量机和无监督学习-模糊c均值聚类来验证该方法的有效性。最后,将所提供的特征认知模型用于轴承故障识别,验证其有效性。从仿真结果可以看出,与完全积分经验模态分解方法相比,改进变分模态与奇异值分解相结合的特征认知模型可以获得更高的精度和更大的评价系数。值得一提的是,所提出的方法也可以应用于识别其他信号的关键特征。
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来源期刊
Cognitive Computation and Systems
Cognitive Computation and Systems Computer Science-Computer Science Applications
CiteScore
2.50
自引率
0.00%
发文量
39
审稿时长
10 weeks
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