希爾伯特黃轉換應用於風扇的破壞檢測分析

Bo-Yu Yang; 楊博宇

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/61373

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	王昭男(Chao-Nan Wang)
dc.contributor.author	Bo-Yu Yang	en
dc.contributor.author	楊博宇	zh_TW
dc.date.accessioned	2021-06-16T13:01:48Z	-
dc.date.available	2016-08-14
dc.date.copyright	2013-08-14
dc.date.issued	2013
dc.date.submitted	2013-08-07
dc.identifier.citation	[1]X. Tian , Hewlett-Packard Co., 'Cooling Fan Reliability: Failure Criteria, Accelerated Life Testing, Modeling and Qualification.' ,Reliability and Maintainability Symposium, pp.380-384. , 2006. [2]C. W. Lin, '希爾伯特黃轉換於樑上之破壞檢測分析', 台灣大學工程科學及海洋工程學系, 碩士論文, 2010. [3]Z Hameed, Y. S Hong, Y. M Cho, S. H Ahn ,C. K Song, 'Condition monitoring and fault detection of wind turbines and related algorithms: A review. ' ,Vol.13, Issue 1, pp.1-39. , 2009. [4]B. K. N RAO, 'Handbook of Condition Monitoring. ', Elsevier Science ,1996. [5]C. L. Lee, '音射定位法於岩石材料之應用', 國立成功大學資源工程學系, 碩士論文, 2003. [6]L. Lin, W. Lu, F. Chu, 'Application of AE techniques for the detection of wind turbine using Hilbert-Huang transform.', Prognostics and Health Management Conference, pp.1-7.,2010. [7]A. G. Dutton, 'Thermoelastic stress measurement and acoustic emission monitoring in wind turbine blade testing.' ,European Wind Energy Conference, pp.22-25., 2004. [8]F. Hahn, C. W. Kensche, R. J. H. Paynter, A. G. Dutton, C. Kildegaard and J. Kosgaard, ' Design, Fatigue Test and NDE of a Sectional Wind Turbine Rotor Blade. Journal of Thermoplastic Composite Materials ',Vol.15, no. 3 ,pp.267-277., 2002. [9]N. Roy, R. Ganguli, ' Helicopter rotor blade frequency evolution with damage growth and signal processing. ', Journal of Sound and Vibration , Vol.283 , Issue 3-5 ,pp. 821-851. 2005. [10]S. Kumar, N. Roy, R. Ganguli, ' Monitoring low cycle fatigue damage in turbine blade using vibration characteristics. ',Mechanical Systems and Signal Processing , Vol. 21, Issue 1, pp. 480–501., 2007. [11]J. T. Sawicki, X. Wu, G. Y. Baaklini, , A. L. Gyekenyesi, 'Vibration-based crack diagnosis in rotating shafts during acceleration through resonance. ' Proceedings of SPIE,Vol. 5046, Issue 1, 2003. [12]T. R. Babu, S. Srikanth, A.S. Sekhar, 'Hilbert–Huang transform for detection and monitoring of crack in a transient rotor.' ,Mechanical Systems and Signal Processing ,Vol.22, Issue 4,pp.905–914,2008. [13]Q. Miao, M. Azarian, M. Pecht, ' Cooling Fan Bearing Fault Identification Using Vibration Measurement. ' ,Prognostics and Health Management (PHM),pp.1-5.,2011 [14]C. K. Cheng, P. H. Chen , A. Liu , L. M. Chen, 'Defect Type Recognition System for Wind Turbine by Subtractive Clustering. ' ,Intelligent System Design and Engineering Application (ISDEA),pp.1404 - 1408.,2012. [15]J. W. Cooley, J. W. Turkey, 'An Algorithm for the Machine Calculation of Complex Fourier Series ', Mathematics of Computation, Vol. 19, Issue 90, pp. 297-201., 1965 [16]S. Qian, D. Chen, 'Joint time-frequency analysis : methods and applications', Prentice Hall, 1996 [17]Y. Meyer, 'Wavelets : algorithms & applications ', Philadelphia : Society for Industrial and Applied Mathematics, 1993 [18]N. E. Huang, S. S. Shen, 'The Hilbert-huang Transform And Its Applications', World Scientific Pub Co. Pte. Ltd., 2005 [20]K. Y. Chen , H. C. Yeh, S. Y. Su, C. H. Liu, N. E. Huang, 'Anatomy of plasma structures in an equatorial spread F event. ' , Geophysical Research Letters, Vol. 28, Issue 16, pp. 3107-3110., 2001 [21]R.W. Komm, F. Hill, R. Howe, ' Empirical mode decomposition and Hilbert analysis applied to rotation residuals of the solar convection zone. ' , The Astrophysical Journal, Vol.558, Issue 1, pp 428-441., 2001 [22]N. E. Huang, Z. Shen , S. R. Lomg , M. C. Wu , S. H. Shih, Q. Zheng, C. C. Tung, H. H. Liu, 'The Empirical Mode Decomposition and the Hilbert Spectrum for Nonlinear and Non-stationary Time Series Analysis. ' ,Proceedings of the Royal Society A, Vol.454, No.1971, pp 903-995, 1998 [23]L. Cohen, 'Time-Frequency Analysis.', Prentice Hall PTR, Englewood Cliffs, 1995 [24]M. Schwartz , W. R. Bennett, S. Stein, 'Communications Systems and Techniques. ', New York, McGraw-Hill.,1966. [25]S. O. Rice, 'Mathematical Analysis of Random Noise. ', Bell System Technical Journal, Vol. 23 , Issue 3 ,pp. 282-310, 1994 [26]D. Gabor, ' Communication Theory and Physics. ', IEEE Transactions on Information Theory, Vol. 1, No. 1, pp. 48-59, 1953 [27]E. Bedrosian, 'A Product Theorem for Hilbert Transforms. ', Proceedings of the IEEE, Vol.51, No. 5, pp. 868-869., 1963. [28]N. E. Huang, Z. Shen, R. S. Long, 'A new view of nonlinear water waves – the Hilbert spectrum. ', Annual Review of Fluid Mechanics, Vol.31, pp. 417-457., 1999. [29]N. E. Huang, M. L. Wu, S. R. Long, S. S. Shen, W. D. Qu, P. Gloersen, K. L. Fan, 'A confidence limit for the empirical mode decomposition and the Hilbert spectral analysis. ' , Proceedings of the Royal Society, London, Vol. 459A, pp.2317-2345, 2003 [30]Z. Wu , N. E. Huang, ' Ensemble empirical mode decomposition: A noise-assisted data analysis method.', Advances in Adaptive Data Analysis, Vol. 1, Issue 1, pp. 1-41, 2009 [31]R. Deering, J. F. Kaiser, 'The use of a masking signal to improve empirical mode decomposition.' , Acoustics Speech and Signal Processing, Proceedings. (ICASSP '05). IEEE International, Vol. 4, Issue 4, pp.485-488., 2005. [32]N. Senroy, S. Suryanarayanan, 'Two Techniques to Enhance Empirical Mode Decomposition for Power Quality Applications. ', Power Engineering Society General Meeting, 2007. IEEE, pp.1-6., 2007. [33]N. Senroy, S. Suryanarayanan, P. F. Ribeiro, 'An Improved Hilbert–Huang Method for Analysis of Time-Varying Waveforms in Power Quality.', IEEE Transactions on Power Systems, Vol. 22, pp. 1843-1850, 2007. [34]H. Zhang, Q. Gai, 'Research on Properties of Empirical Mode Decomposition Method. ' , Intelligent Control and Automation( WCICA 2006.) The Sixth World Congress, Vol.2, pp.10001-10004, 2006.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/61373	-
dc.description.abstract	本文針對電腦風扇葉片缺損的振動特徵，利用希爾伯特-黃轉換 (Hilbert-Huang Transform, HHT)進行分析與檢測。HHT是一種適用於非平穩與非線性訊號的時頻分析工具，其分析流程首先將待分析訊號用經驗模態分解法(Empirical Mode Decomposition,EMD)分解出數個本質模態函數 (Intrinsic Mode Functions, IMFs)。其次再利用Hilbert轉換(Hilbert Transform, HT)求得該待測訊號之瞬時頻率、瞬時振福，進而建立兼具時-頻-能量三者的分佈圖，稱為希爾伯特時頻譜(Hilbert Spectrum)。文中利用此數據，將風扇旋轉頻率上之平均能量除以振動總能量定義為損傷程度，以此作為破壞檢測指標之一。此外並比較不同破壞程度之希爾伯特時頻譜與偏度之歐式距離當作另一個破壞檢測指標。實驗部分將風扇分成無損壞、輕微損壞及嚴重損壞三種情況，分別量測並分析其希爾伯特時頻譜，再計算其診斷指標，用以判斷其破壞程度，依據分析結果：以平均能量除以振動總能量為診斷指標其準確度為87.5%；以不同破壞程度之希爾伯特時頻譜與偏度之歐式距離為診斷指標，轉速為3100(RPM)之風扇其準確度為85.42%，轉速為2500(RPM)之風扇其準確度為58.33%，轉速為2000(RPM)之風扇其準確度為60.42%。	zh_TW
dc.description.abstract	The current study investigates the property of vibration on the damaged cooling fans via Hilbert-Huang Transform (HHT) method. HHT is a time-frequency analysis tool commonly used to test the nonstationary and nonlinear signals. HHT consists of two procedures when applied to the analysis: (a) The utilization of Empirical Mode Decomposition (EMD) to extract Intrinsic Mode Functions (IMFs) from signals to be processed. (b) The utilization of Hilbert Transform (HT) to obtain Instantaneous frequency and Instantaneous amplitude from signals to be processed. Base on data, the degree of damage is defined as the average energy of fan rotation frequency divided by total energy of vibration. The degree of damage, thus, is used as the indicator for damage detecting. Being classified into undamaged, slightly damaged and seriously damaged, the cooling fans with different classification are compared via Hilbert spectrum to fulfill the damage detecting in the current study. According to the analysis, by considering the result of average energy of fan rotation frequency divided by total energy of vibration as the indicator for damage detecting, the accuracy is 87.5%. With the indicator for damage detecting defined as the distance between Hilbert spectrum of different classification of cooling fans and skewness, the accuracy is 85.42% when the rotation speed of cooling fan is 3100(RPM), 58.33% when the rotation speed of cooling fan is 2500(RPM), and 60.42% when the rotation speed of cooling fan is 2000(RPM).	en
dc.description.provenance	Made available in DSpace on 2021-06-16T13:01:48Z (GMT). No. of bitstreams: 1 ntu-102-R00525061-1.pdf: 2227770 bytes, checksum: 5c9958cbd3880319c69c34230326301c (MD5) Previous issue date: 2013	en
dc.description.tableofcontents	摘要 I Abstract II 目錄 III 圖目錄 V 表目錄 VII 第一章緒論 1 1.1 研究動機 1 1.2 文獻回顧 2 1.3 研究內容及大綱 5 第二章 HHT基礎理論 6 2.1 瞬時頻率與解析訊號 6 2.2 希爾伯特黃轉換(Hilbert-Huang Transform, HHT) 13 2.2.1 本質模態函數(Intrinsic Mode Functions, IMF) 13 2.2.2 經驗模態分解法(Empirical Mode Decomposition, EMD) 14 2.2.3 希伯特頻譜 18 2.3 總體經驗模態分解法(Ensemble EMD,EEMD) 18 2.4 遮罩訊號法(MASK SIGNAL) 20 2.5 希爾伯特黃轉換之特性 21 第三章損壞診斷指標 23 3.1 旋轉頻率之能量比值(指標一) 23 3.2 相似度(指標二) 24 3.2.1 頻譜之歐式距離 24 3.2.2 偏度(skewness)之歐式距離 25 第四章實驗設備與系統架構 26 4.1 實驗設備與流程 26 4.2 訊號量測儀器 27 4.3 訊號量測過程 29 第五章實驗設計與結果分析 32 5.1 實驗設計 32 5.2 各轉速風扇與其指標 33 5.2.1 轉速3100(RPM)風扇 33 5.2.2 轉速2000(RPM)風扇 37 5.2.3 轉速2000(RPM)風扇 40 5.3 以各特徵設立診斷指標 44 5.3.1 以c值為特徵設立診斷指標 44 5.3.2 以頻譜相似度為特徵設立診斷指標 46 第六章結論及未來展望 51 6.1 結論 51 6.2 未來展望 52 參考文獻 53
dc.language.iso	zh-TW
dc.subject	希爾伯特黃轉換	zh_TW
dc.subject	風扇破壞檢測	zh_TW
dc.subject	本質模態函數	zh_TW
dc.subject	經驗模態分解法	zh_TW
dc.subject	HHT	en
dc.subject	cooling fan	en
dc.subject	static unbalance	en
dc.subject	damage detecting	en
dc.title	希爾伯特黃轉換應用於風扇的破壞檢測分析	zh_TW
dc.title	Hilbert Huang Transform applied to the fan damage detecting analysis	en
dc.type	Thesis
dc.date.schoolyear	101-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	劉德源(Der-Yuan Liou),謝傳璋(Chuan-Cheung Tse)
dc.subject.keyword	希爾伯特黃轉換,經驗模態分解法,本質模態函數,風扇破壞檢測,	zh_TW
dc.subject.keyword	HHT,cooling fan,static unbalance,damage detecting,	en
dc.relation.page	55
dc.rights.note	有償授權
dc.date.accepted	2013-08-07
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	工程科學及海洋工程學研究所	zh_TW
顯示於系所單位：	工程科學及海洋工程學系

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