Instantaneous frequency estimation for wheelset bearings weak fault signals using second-order synchrosqueezing S-transform with optimally weighted sliding window

Lin Rongye; Liu Zhiwen; Jin Yulin

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Instantaneous frequency estimation for wheelset bearings weak fault signals using second-order synchrosqueezing S-transform with optimally weighted sliding window

机译：使用最优加权滑动窗口的二阶同步凝固S变换的轮对轴承的瞬时频率估计弱故障信号

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The second-order synchrosqueezing S-transform (SSST2) is an important method for instantaneous frequency (IF) estimation of non-stationary signals. Based on the synchrosqueezing S-transform, the instantaneous frequency calculation method is modified using the second-order partial derivatives of time and frequency to achieve higher frequency resolution. However, weak multi-frequency signals with strong background noise are often drowned out during the transformation process. To achieve enhanced extraction of weak fault characteristic signals due to mechanical faults, this paper proposes an optimally weighted sliding window signal segmentation algorithm based on the SSST2. The results of simulations and experiments show that the time-frequency aggregation of the second-order synchrosqueezing S-transform based on the optimally weighted sliding window (OWSW-SSST2) is not only significantly higher than that of commonly used time-frequency transforms, but it also has better operational efficiency than the second-order synchrosqueezing S-transform. In this paper, the proposed algorithm is used to analyze fault signals from actual high-speed railway wheelset bearings. The results show that the OWSW-SSST2 algorithm greatly improves the spectral aggregation of the signal, and crucially, that high-precision IF estimates for signals can be obtained in low signal-to-noise ratio environments. This research is both of academic interest and significant for practical engineering use to ensure safe high-speed rail operations. It helps enable monitoring the status of wheelset bearings, correctly estimating the locations and causes of failures, and providing up-to-date systematic maintenance and system improvement strategies. (C) 2021 ISA. Published by Elsevier Ltd. All rights reserved.

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《ISA Transactions》 |2021年第1期|共16页
作者
Lin Rongye; Liu Zhiwen; Jin Yulin;
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作者单位

Univ Elect Sci &

Technol China Sch Automat Engn Chengdu 611731 Sichuan Peoples R China;

Univ Elect Sci &

Technol China Sch Automat Engn Chengdu 611731 Sichuan Peoples R China;

Univ Elect Sci &

Technol China Sch Automat Engn Chengdu 611731 Sichuan Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类计量学;工业自动化仪表;
关键词
time-frequency analysis; Second-order synchrosqueezing; S-transform; Optimally weighted sliding window; Wheelset bearing fault diagnosis;

机译：时间频率分析;二阶同步速度;S转换;最佳加权滑动窗;轮圈轴承故障诊断;

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1. Rolling element bearing instantaneous rotational frequency estimation based on EMD soft-thresholding denoising and instantaneous fault characteristic frequency [J] . 赵德尊, 李建勇, 程卫东, 中南大学学报（英文版） . 2016,第007期
2. Signal Separation and Instantaneous Frequency Estimation Based on Multi-scale Chirplet Sparse Signal Decomposition [J] . De-jie, Jie-si LUO, Mei-li SHI 测试科学与仪器：英文版 . 2010,第001期
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4. An energy time-convexity second-order synchrosqueezing transform and application in weak fault diagnosis of rolling bearings in an aerospace engine [J] . Chen Zhenyi, Zi Yanyang, Li Ping, Measurement Science & Technology . 2020,第12期

机译：航空航天发动机滚动轴承弱故障诊断中的能量时间凸起二阶同步转换及应用
5. An Enhanced Version of Second-Order Synchrosqueezing Transform Combined with Time-Frequency Image Texture Features to Detect Faults in Bearings [J] . Xiaohan Cheng, Aiming Wang, Zongwu Li, Shock and vibration . 2021,第a期

机译：二阶SynchroSqueezing变换的增强版本与时频图像纹理功能相结合，以检测轴承中的故障
6. Matching synchrosqueezing transform: A useful tool for characterizing signals with fast varying instantaneous frequency and application to machine fault diagnosis [J] . Shibin Wang, Xuefeng Chen, Ivan W. Selesnick, Mechanical systems and signal processing . 2018,第FEBa1期

机译：匹配同步压缩变换：一种有用的工具，用于表征具有快速变化的瞬时频率的信号并将其应用于机器故障诊断
7. An Adaptive Frequency Window Empirical Wavelet Transform Method for Fault Diagnosis of Wheelset Bearing [C] . Feiyue Deng, Yongqiang Liu Prognostics and System Health Management Conference . 2018

机译：轮对轴承故障诊断的自适应频率窗经验小波变换方法
8. Instantaneous frequency and parameter estimation of SAR/ISAR signal models using time-frequency filtering. [D] . Liu, Ke. 1997

机译：使用时频滤波的SAR / ISAR信号模型的瞬时频率和参数估计。
9. Multi-Frequency Signal Detection Based on Frequency Exchange and Re-Scaling Stochastic Resonance and Its Application to Weak Fault Diagnosis [O] . Jinjun Liu, Yonggang Leng, Zhihui Lai, 2018

机译：基于频率交换和按比例缩放随机共振的多频信号检测及其在弱故障诊断中的应用
10. The Mkurtogram: A Novel Method to Select the Optimal Frequency Band in the AC Domain for Railway Wheelset Bearings Fault Diagnosis [O] . Wenpeng Liu, Shaopu Yang, Qiang Li, 2020

机译：MKURTOGRAG：一种在铁路WHEELET轴承故障诊断中选择AC域中的最佳频带的新方法

Instantaneous frequency estimation for wheelset bearings weak fault signals using second-order synchrosqueezing S-transform with optimally weighted sliding window

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