基于 IAFD 和 TKEO 的滚动轴承故障特征提取方法

IF 1.4 4区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

Journal of Sensors Pub Date : 2024-02-15 DOI:10.1155/2024/8551009

Kai Guo, Jun Ma, Xin Xiong, Yuming Hu, Xiang Li

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引用次数: 0

摘要

利用自适应傅立叶分解（AFD）进行轴承故障特征提取的研究具有重要的现实意义。然而，自适应傅立叶分解受限于其对确定分解级别的先验知识的依赖，这可能导致基于单一指标的分解不足或分解过度。因此，我们提出了一种改进的自适应傅立叶分解（IAFD）。首先，构建一个称为 SP 的组合权重指标，并采用鲸鱼优化算法来优化 SP 权重参数。其次，利用优化后的 SP 自适应地确定 IAFD 分解级别。最后，将基于 IAFD 和 Teager-Kaiser 能量算子的特征提取方法应用于滚动轴承故障诊断。在凯斯西储大学和自制的 KUST-SY 数据集上进行的案例研究验证了所提方法的有效性。

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Fault Feature Extraction Method of Rolling Bearing Based on IAFD and TKEO

The study of bearing fault feature extraction using adaptive Fourier decomposition (AFD) holds significant practical importance. However, AFD is constrained by its reliance on prior knowledge for determining decomposition levels, which can result in either underdecomposition or overdecomposition based on a single indicator. Consequently, an improved adaptive Fourier decomposition (IAFD) is proposed. First, a combined weight index called SP is constructed, and the whale optimization algorithm is employed to optimize the SP weight parameter. Second, the IAFD decomposition levels can be adaptively determined using the optimized SP. Finally, a feature extraction method-based IAFD and Teager–Kaiser energy operator is applied in rolling bearing fault diagnosis. Case studies on the Case Western Reserve University and self-made KUST-SY datasets validate the effectiveness of the proposed method.

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来源期刊

Journal of Sensors ENGINEERING, ELECTRICAL & ELECTRONIC-INSTRUMENTS & INSTRUMENTATION

CiteScore

4.10

自引率

5.30%

发文量

833

审稿时长

18 weeks

期刊介绍： Journal of Sensors publishes papers related to all aspects of sensors, from their theory and design, to the applications of complete sensing devices. All classes of sensor are covered, including acoustic, biological, chemical, electronic, electromagnetic (including optical), mechanical, proximity, and thermal. Submissions relating to wearable, implantable, and remote sensing devices are encouraged. Envisaged applications include, but are not limited to: -Medical, healthcare, and lifestyle monitoring -Environmental and atmospheric monitoring -Sensing for engineering, manufacturing and processing industries -Transportation, navigation, and geolocation -Vision, perception, and sensing for robots and UAVs The journal welcomes articles that, as well as the sensor technology itself, consider the practical aspects of modern sensor implementation, such as networking, communications, signal processing, and data management. As well as original research, the Journal of Sensors also publishes focused review articles that examine the state of the art, identify emerging trends, and suggest future directions for developing fields.