Reference-Free Breathing Crack Identification of Beam-Like Structures Using an Enhanced Spatial Fourier Power Spectrum with Exponential Weighting Functions

Prawin J.; Rao A. Rama Mohan

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Reference-Free Breathing Crack Identification of Beam-Like Structures Using an Enhanced Spatial Fourier Power Spectrum with Exponential Weighting Functions

机译：使用具有指数加权函数的增强的空间傅里叶功率谱，无参考呼吸抗梁结构识别光束结构

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Detection of incipient damage of structures at the earliest possible stage is desirable for successful implementation of any health monitoring system. In this paper, we focus on breathing crack problem and present a new reference-free algorithm for fatigue crack detection, localization, and characterization for beam-like structures. We use the spatial curvature of the Fourier power spectrum as a damage sensitive feature for fatigue crack identification. An exponential weighting function that takes into account nonlinear dynamic signatures, such as sub- and superharmonics, is proposed in the Fourier power spectrum in order to enrich the damage- sensitive features of the structure. Both numerical and experimental studies have been carried out to test and verify the proposed algorithm.

机译：在最早的可能阶段检测结构的初始损伤是为了成功实施任何健康监测系统。在本文中，我们专注于呼吸裂纹问题，并提出了一种用于疲劳裂纹检测，定位和梁状结构表征的新参考算法。我们使用傅里叶功率谱的空间曲率作为疲劳裂纹识别的损伤敏感特征。考虑到非线性动态签名的指数加权函数，例如子和超芳烃，以便丰富结构的损伤敏感特征。已经进行了数值和实验研究，以测试和验证所提出的算法。

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来源
《International journal of structural stability and dynamics 》 |2019年第2期| 共26页
作者
Prawin J.; Rao A. Rama Mohan;
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作者单位

Acad Sci &

Innovat Res Chennai Tamil Nadu India;

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原文格式 PDF
正文语种 eng
中图分类应用力学 ;
关键词
Breathing crack; beam-like structures; curvature; Fourier power spectrum; super-harmonics; weighting function;

机译：呼吸裂缝;梁状结构;曲率;傅里叶功率谱;超级谐波;加权功能;

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1. Reference-Free Breathing Crack Identification of Beam-Like Structures Using an Enhanced Spatial Fourier Power Spectrum with Exponential Weighting Functions [J] . Prawin J., Rao A. Rama Mohan Nature reviews Cancer . 2019 ,第2期

机译：使用具有指数加权函数的增强的空间傅里叶功率谱，无参考呼吸探测光束结构的梁状结构
2. Modal identification and damage detection in beam-like structures using the power spectrum and time-frequency analysis [J] . Gilbert-Rainer Gillich, Zeno-Iosif Praisach Signal processing . 2014 ,第ptaA期

机译：利用功率谱和时频分析的梁状结构模态识别与损伤检测
3. Localization of Breathing Crack in Beam-Like Structures Using Superharmonic Components Based on Singular Value Decomposition Approach [J] . Prawin J. International journal of structural stability and dynamics . 2020 ,第1期

机译：基于奇异值分解方法的超谐波组分的光束结构中呼吸裂缝的定位
4. A nonlinearity evaluation based crack location identification for cantilever beam-like structures using different excitation force levels [C] . Mian Jiang, Yingwei Kuang, Kuanfang He, International Conference on Condition Monitoring of Machinery in Non-Stationary Operations . 2021

机译：基于不同激励力水平的悬臂梁状结构的基于非线性评估的裂缝位置识别
5. Identification of spatial and topographical metrics for micro hydropower applications in irrigation infrastructure. [D] . Campbell, Brian. 2012

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6. Hierarchical structure of cascade of primary and secondary periodicities in Fourier power spectrum of alphoid higher order repeats [O] . Vladimir Paar, Nenad Pavin, Ivan Basar, 2008

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7. Mode shape curvature of multiple cracked beam and its use for crack identification in beam-like structures [O] . Nguyen Tien Khiem 2020

机译：多裂纹梁的模式形状曲率及其用于光束结构中的裂纹识别的用途

Reference-Free Breathing Crack Identification of Beam-Like Structures Using an Enhanced Spatial Fourier Power Spectrum with Exponential Weighting Functions

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