Adaptive extraction and diagnosis method for degree features of mechanical fault through stack-type sparse automatic coding depth neural network

A sparse auto-encoding and deep neural network technology, applied in neural learning methods, biological neural network models, mechanical bearing testing, etc., can solve problems such as poor learning effect and limited learning ability

Inactive Publication Date: 2017-01-11
CHONGQING JIAOTONG UNIVERSITY
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Problems solved by technology

Self-encoding only includes the input layer, hidden layer and output layer. It is a shallow network with limit

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  • Adaptive extraction and diagnosis method for degree features of mechanical fault through stack-type sparse automatic coding depth neural network
  • Adaptive extraction and diagnosis method for degree features of mechanical fault through stack-type sparse automatic coding depth neural network
  • Adaptive extraction and diagnosis method for degree features of mechanical fault through stack-type sparse automatic coding depth neural network

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Embodiment

[0096] In this embodiment, the validity of the present invention is verified by the following steps:

[0097] Step 1: Receive the vibration signals of multiple sets of rolling bearings under 9 fault degrees to be analyzed. The fault types are shown in Table 1. The bearing model is SKF6205-RS, and the damage is simulated on the inner and outer raceways and rolling elements by EDM grooves. The groove depth is 0.279mm, and the groove width represents the different damage degrees of the bearing. In Table 1, taking inner ring damage as an example, the codes IF1 / IF2 / IF3 refer to the degree of damage when the groove width is 0.178 / 0.356 / 0.533 (mm), and the larger the groove width, the more serious the bearing damage.

[0098] Table 1 Fault type

[0099]

[0100] Vibration data were collected under two working conditions of load 2HP, speed 1750rpm and load 0HP, speed 1797rpm. The sampling frequency was 48kHz, and the sampling length was 485643 points, with 2048 points as a segment...

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Abstract

The invention relates to an adaptive extraction and diagnosis method for degree features of a mechanical fault through a stack-type sparse automatic coding depth neural network, and belongs to the technical field of mechanical equipment state monitoring and reliability evaluation. The method aims at a problem of intelligent diagnosis of the degree of the mechanical fault, and comprises the steps: carrying out the stacking of sparse automatic coding, adding a classification layer, and constructing the stack-type sparse automatic coding depth neural network which integrates the adaptive learning and extraction of the degree features of the fault and fault recognition; employing the advantage that the sparse automatic coding can automatically learn the internal features of data, and adding noise coding to be integrated in the sparse automatic coding for improving the robustness of feature learning; carrying out the layer-by-layer no-supervision adaptive learning and supervision fine tuning of the original input complex data through multilayer sparse automatic coding, completing the automatic extraction and expression of the degree features of the mechanical fault and achieving the intelligent diagnosis of the degree of the fault. The method is used for the diagnosis of the degree of faults of rolling bearings under different work conditions, and obtains a good effect of feature extraction and diagnosis.

Description

technical field [0001] The invention belongs to the technical field of state monitoring and reliability evaluation of mechanical equipment, and relates to a method for adaptively extracting and diagnosing mechanical fault degree features of a stacked sparse automatic coding deep neural network. Background technique [0002] At present, the fault diagnosis of mechanical equipment is mostly focused on the fault classification research, which often only judges whether a fault occurs and the type of fault. It is difficult to carry out preventive maintenance on mechanical equipment in engineering. Only by accurately assessing and diagnosing the degree of failure can we effectively guide the maintenance of mechanical equipment, ensure the good operation of the equipment, prevent production accidents, and improve economic benefits. Therefore, it is particularly important to diagnose the fault degree of mechanical equipment. [0003] At present, the evaluation and diagnosis of faul...

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Application Information

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IPC IPC(8): G01M13/04G06N3/08
CPCG01M13/045G06N3/08
Inventor 陈仁祥杨星杨黎霞罗天洪陈思杨徐向阳罗家元向阳
Owner CHONGQING JIAOTONG UNIVERSITY
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