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A mechanical equipment fault intelligent diagnosis method based on a generation model under small sample data

A technology for mechanical equipment and model generation, which is applied in biological neural network models, neural learning methods, computer components, etc., and can solve problems affecting the timeliness and accuracy of fault diagnosis and condition monitoring of mechanical equipment, and is not general. Achieve the effect of getting rid of dependencies, improving accuracy, and expanding data sets

Inactive Publication Date: 2019-06-21
XI AN JIAOTONG UNIV
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Problems solved by technology

The small sample problem seriously affects the timeliness and accuracy of fault diagnosis and condition monitoring of mechanical equipment, so it is necessary to carry out research on fault diagnosis of mechanical equipment under small sample problems
[0004] Traditionally, the way to expand the data set in the fault diagnosis process is oversampling, but oversampling is only reusing the only small amount of fault sample information, which is not general

Method used

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  • A mechanical equipment fault intelligent diagnosis method based on a generation model under small sample data
  • A mechanical equipment fault intelligent diagnosis method based on a generation model under small sample data
  • A mechanical equipment fault intelligent diagnosis method based on a generation model under small sample data

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Embodiment Construction

[0045] Below in conjunction with accompanying drawing, the present invention is described in further detail:

[0046] see figure 1 , in order to improve the accuracy of mechanical equipment fault diagnosis under small sample data, the present invention provides an intelligent diagnosis method for mechanical equipment based on a generative model under small sample data. The method includes two parts: the fault signal generation part and the state classification recognition part. The fault signal generation part is realized based on the generative confrontation model. The generator in the generative confrontation model can generate the fault signal corresponding to the fault type according to the given label, and the discriminator with the auxiliary classifier can judge the authenticity of the generated signal and distinguish the generated signal. The class of the signal. Through adversarial training, the generator can obtain good generation ability to expand the data set. Th...

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Abstract

The invention discloses a mechanical equipment fault intelligent diagnosis method based on a generation model under small sample data. The mechanical equipment fault intelligent diagnosis method comprises: carrying out zero-mean-value standardization preprocessing on a small number of obtained mechanical signals; Establishing a composite network for mechanical signal generation; Training a generative adversarial network model in an adversarial manner in combination with a Wasserstein distance and a gradient punishment method; Establishing a deep convolutional neural network model for classifying the operation states of the mechanical equipment by using the mechanical signals; And by combining the generative adversarial composite neural network model and the deep convolutional neural network model, training two networks by using a small amount of real mechanical signals, and finally realizing intelligent fault diagnosis of the mechanical equipment under small sample data. The method hasthe advantages of being good in mechanical signal feature extraction effect, high in state classification accuracy and good in mechanical signal data expansion performance.

Description

technical field [0001] The invention relates to the field of fault diagnosis of mechanical equipment, in particular to an intelligent fault diagnosis method for mechanical equipment based on a generated model under small sample data. Background technique [0002] During the operation of mechanical equipment, its main components, such as bearings, gears, rotors, etc., are prone to failure due to the continuous load, resulting in economic losses and casualties. In order to reduce the loss caused by the failure of mechanical equipment, it is necessary to carry out research on fault diagnosis and condition monitoring of mechanical equipment. All kinds of mechanical signals collected on mechanical equipment under actual working conditions will be polluted by noise, making it difficult to effectively extract features and identify states of mechanical signals. Denoising and feature extraction of mechanical signals is generally regarded as the main task and main difficulty of mecha...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06K9/00G06N3/04G06N3/08
Inventor 陈景龙张天赐訾艳阳
Owner XI AN JIAOTONG UNIV
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