利用时频域数据聚类识别非高斯背景噪声声学信号中信号成分的方法

IF 3.4 2区 物理与天体物理 Q1 ACOUSTICS
Anita Drewnicka , Anna Michalak , Radosław Zimroz , Anil Kumar , Agnieszka Wyłomańska , Jacek Wodecki
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引用次数: 0

摘要

本文提出了一种在受非高斯噪声污染的振动/声学信号中进行故障检测的新方法,特别解决了工业测量中随机脉冲和宽带干扰的难题。虽然高斯噪声环境中的损坏检测已广为人知,但工业过程中随机产生的高振幅非周期性脉冲干扰(如非均匀操作和随机冲击)却给分析带来了巨大挑战。该方法考虑了由感兴趣信号(SOI)和高斯及非高斯噪声组成的简单加法模型。该方法使用基于密度的空间聚类算法(DBSCAN),从频谱图中分离出不同类别的频谱向量,从而有效地分离出不同的信号行为并提取与故障相关的信息。利用基于包络谱的指示器(ENVSI)验证了所提方法的有效性,并在一台有故障轴承的工业机器的真实信号上进行了成功演示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A method for signal components identification in acoustic signal with non-Gaussian background noise using clustering of data in time-frequency domain
This paper presents a novel method for fault detection in vibration/acoustic signals contaminated with non-Gaussian noise, specifically addressing the challenge of random impulsive and wideband disturbances in industrial measurements. While damage detection in Gaussian noise environments is well understood, high-amplitude non-cyclic impulsive disturbances arising from random aspects of industrial processes, such as non-uniform operations and random impacts, pose significant analytical challenges.
The proposed method analyzes the distribution densities of spectral vectors derived from spectrograms. It considers a simple additive model consisting of the signal of interest (SOI) and Gaussian and non-Gaussian noise. Using the density-based spatial clustering algorithm (DBSCAN), the method isolates distinct classes of spectral vectors from the spectrogram, effectively separating different signal behaviors and extracting fault-related information. The effectiveness of the proposed method was validated using an envelope spectrum-based indicator (ENVSI) and successfully demonstrated on real signals from an industrial machine with a faulty bearing.
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来源期刊
Applied Acoustics
Applied Acoustics 物理-声学
CiteScore
7.40
自引率
11.80%
发文量
618
审稿时长
7.5 months
期刊介绍: Since its launch in 1968, Applied Acoustics has been publishing high quality research papers providing state-of-the-art coverage of research findings for engineers and scientists involved in applications of acoustics in the widest sense. Applied Acoustics looks not only at recent developments in the understanding of acoustics but also at ways of exploiting that understanding. The Journal aims to encourage the exchange of practical experience through publication and in so doing creates a fund of technological information that can be used for solving related problems. The presentation of information in graphical or tabular form is especially encouraged. If a report of a mathematical development is a necessary part of a paper it is important to ensure that it is there only as an integral part of a practical solution to a problem and is supported by data. Applied Acoustics encourages the exchange of practical experience in the following ways: • Complete Papers • Short Technical Notes • Review Articles; and thereby provides a wealth of technological information that can be used to solve related problems. Manuscripts that address all fields of applications of acoustics ranging from medicine and NDT to the environment and buildings are welcome.
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