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Design and Application of a Fault Detection Method Based on Adaptive Filters and Rotational Speed Estimation for an Electro-Hydrostatic Actuator
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Weak Fault Feature Extraction Method Based on Improved Stochastic Resonance.

Zhen Yang1, Zhiqian Li2, Fengxing Zhou1

  • 1Engineering Research Center for Metallurgical Automation and Measurement Technology of Ministry of Education, Wuhan University of Science and Technology, Wuhan 430081, China.

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|September 9, 2022
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Summary
This summary is machine-generated.

This study enhances early weak fault detection in rotating machinery using an improved stochastic resonance (SR) method. The technique effectively extracts subtle bearing fault features, improving diagnostic accuracy and machinery health monitoring.

Keywords:
comprehensive evaluation indexearly weak faultfeature extractionparameter optimizationstochastic resonance

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Area of Science:

  • Mechanical Engineering
  • Signal Processing
  • Fault Diagnosis

Background:

  • Early detection of weak faults in rotating machinery bearings is crucial for preventing catastrophic failures.
  • Traditional methods struggle with extracting subtle fault features from noisy signals.
  • Stochastic Resonance (SR) offers potential for enhancing weak signals but requires optimization for complex fault characteristics.

Purpose of the Study:

  • To develop an improved stochastic resonance (SR) method for enhanced early weak fault feature extraction in bearings.
  • To address the challenge of large parameter signals in actual fault data by converting them into a processable format for SR.
  • To optimize the SR system parameters for superior performance in weak fault detection.

Main Methods:

  • Introduced amplitude and frequency transform coefficients to convert large parameter fault signals into small parameter signals suitable for SR.
  • Developed a Comprehensive Evaluation Index (CEI) using BP neural network, incorporating power spectrum kurtosis, correlation coefficient, structural similarity, RMSE, and approximate entropy.
  • Employed adaptive weight particle swarm optimization (PSO) to optimize damping and amplitude transform coefficients using the CEI as a fitness function.

Main Results:

  • The improved SR system successfully extracted weak fault features from bearing signals.
  • Simulation and experimental results demonstrated the effectiveness of the proposed method.
  • The method outperformed traditional second-order general scale transform adaptive SR in weak fault feature extraction.

Conclusions:

  • The proposed improved stochastic resonance method, optimized via PSO and CEI, is effective for early weak fault feature extraction in rotating machinery.
  • The signal transformation technique successfully adapted complex fault signals for SR processing.
  • This approach offers a significant advancement in bearing fault diagnosis and condition monitoring.