Zhongshu Ji scite author profile

Zhongshu Ji

5Publications

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Harbin University of Science and Technology, Kobe University

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Research on Typical Fault Diagnosis of Gear based on GHM Multiwavelet Transform and MCKD Algorithm

Song

2024

ENG

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Background: Gear is the key part of the transmission part of mechanical equipment, which has a high failure rate under complex working conditions or long-term operation, directly affecting the reliability of mechanical equipment. To realize online monitoring of gears and predict gear faults, whether the diagnosis of typical gear faults is accurate and timely is a key link, so it is necessary to study the diagnosis of typical gear faults. Objective: This paper aims to propose a method that can effectively diagnose typical faults of gears and is easy to program, which is beneficial to realize online monitoring of rotating machinery equipment faults. Method: A typical gear fault diagnosis method based on GHM multiwavelet transform and maximum correlation kurtosis deconvolution algorithm (MCKD) is proposed in this paper. The measured vibration signal is decomposed into components with multiple scale spaces and frequency bands through the GHM multiwavelet transform. Then, the MCKD algorithm is run to suppress the noise of GHM multiwavelet transform coefficients, and the periodic components containing fault information are retained and reconstructed. The typical faults such as gear pitting and broken teeth are tested. Results: GHM multiwavelet transform combined with MCKD algorithm can accurately locate the frequency band containing fault information from the vibration signal with multiple modulations, double sideband, and multi-frequency interference and effectively extract the fault frequency and its frequency multiplication. The root means a square error of the extracted fault frequency is 0.08. This method has a good noise suppression effect and high accuracy in extracting fault frequency. Conclusion: The method proposed in this paper is helpful in realizing automatic programming of gear fault diagnosis and is of great significance in realizing real-time monitoring and online diagnosis of rotating machinery equipment faults. More related patents will appear in the future.

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Block permutation coding of images using cosine transform

Tanaka²,

Kitamura³

1995

IEEE Trans. Commun.

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Permutation coding of images using cosine transform

Tanaka

Kitamura

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This paper presents the concept of permutatbn coding E). which has typical applications for low bit-rate image compressing and coding. I. INTFiODUCIlONMethods for compressing discrete data via prediction coding. transform coding, or vector quantizalon are well known. in whlch the positions ofdata samples in a se-quencex=k,x,..-%]' are not important becausethey are in the ~t u d order and are known by both the

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Image Line Permutation Coding Featuring of High Speed and Better Reconstruction Quality

Kitamura

1994

T. SICE

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Medical image data compression

Yang

Ha²,

Ji³

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Zhongshu Ji

Research on Typical Fault Diagnosis of Gear based on GHM Multiwavelet Transform and MCKD Algorithm

Block permutation coding of images using cosine transform

Permutation coding of images using cosine transform

Image Line Permutation Coding Featuring of High Speed and Better Reconstruction Quality

Medical image data compression

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