瞬态噪声下非平稳信号对轴承诊断的干扰抑制

IF 5.7 2区计算机科学 Q1 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE

IEEE Transactions on Reliability Pub Date : 2025-01-23 DOI:10.1109/TR.2025.3527739

Peng Chen;Yuhao Wu;Chaojun Xu;Cheng-Geng Huang;Mian Zhang;Junlin Yuan

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引用次数: 0

摘要

在实际应用中，滚动轴承的诊断效率通常受到波动转速和变化载荷等运行条件的影响，特别是瞬态噪声等环境干扰。这些干扰往往掩盖了损坏的迹象，为准确定位故障提供了实质性的障碍。传统的诊断方法与这种情况的复杂性和噪声敏感性作斗争，往往不能准确地识别多变量随机瞬态噪声中的故障迹象。为了解决这些挑战，目前的研究提出了一种称为短期马尔可夫转换频率峰值率的方法。该方法的重点是精确跟踪时间状态变化和识别异常信号。它旨在从源头上减轻瞬态噪声干扰，提高对外部瞬态噪声的不敏感性，从而有助于更准确、更可靠地选择解调频带。此外，在该方法中设计了幅度干扰限制机制，以识别和减轻可能对解调频段选择过程产生不利影响的瞬态噪声的影响。实验结果验证了该方法的有效性，表明即使存在瞬态干扰，该方法也能可靠地诊断轴承故障。

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Interference Suppression of Nonstationary Signals for Bearing Diagnosis Under Transient Noise Measurements

In real-world applications, the diagnostic efficiency of rolling bearings is commonly affected by operating conditions like fluctuating rotating speed and varying loads, especially, environmental disturbances like transient noises. These disturbances tend to mask the indicators of damage, presenting substantial obstacles for accurately pinpointing failures. Traditional diagnostic methods struggle with the complexity and the noise sensitivity of such scenarios, often failing to accurately identify failure signs amidst multivariate random transient noise. To address these challenges, the current study proposes a method known as short-term Markov transition frequency peak rate. This method focuses on precisely tracking temporal state changes and identifying abnormal signals. It is aimed at mitigating transient noise interference at its source and enhancing insensitivity to external transient noise, which facilitates a more accurate and reliable selection of demodulation bands. Furthermore, an amplitude interference-limiting mechanism is designed within this method to discern and mitigate the impact of transient noise that may adversely affect the demodulation band selection process. The experimental results validate the effectiveness of this approach, demonstrating that it can reliably diagnose bearing faults even in the presence of transient disturbances.

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来源期刊

IEEE Transactions on Reliability 工程技术-工程：电子与电气

CiteScore

12.20

自引率

8.50%

发文量

153

审稿时长

7.5 months

期刊介绍： IEEE Transactions on Reliability is a refereed journal for the reliability and allied disciplines including, but not limited to, maintainability, physics of failure, life testing, prognostics, design and manufacture for reliability, reliability for systems of systems, network availability, mission success, warranty, safety, and various measures of effectiveness. Topics eligible for publication range from hardware to software, from materials to systems, from consumer and industrial devices to manufacturing plants, from individual items to networks, from techniques for making things better to ways of predicting and measuring behavior in the field. As an engineering subject that supports new and existing technologies, we constantly expand into new areas of the assurance sciences.