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學術著作
期刊論文

1

完整學術著作列表:
https://sites.google.com/view/tywu-nchu/publications-%E8%91%97%E4%BD%9C

2

T. Y. Wu* and K. W. Lei, 2019, “Prediction of Surface Roughness in Milling Process Using Vibration Signal Analysis and Artificial Neural Network,” The International Journal of Advanced Manufacturing Technology, Vol. 102, No. 1-4, pp. 305-314. (SCI)

3

C. Y. Chang and T. Y. Wu*, 2018, “Identification of Milling Status Using Vibration Feature Extraction Techniques and Support Vector Machine Classifier,” Inventions, Vol. 3, No. 25, pp. 1-10. (DOAJ, IET)

4

T. C. Liu and T. Y. Wu*, 2017, “Application of Empirical Mode Decomposition and Envelop Analysis to Fault Diagnosis in Roller Bearing with Single/Double Defect,” Smart Science, Vol. 5, No. 3, pp. 150-159. (ESCI, Scopus )

5

T. Y. Wu*, C. L. Yu, and D. C. Liu, 2016, “On multi-scale entropy analysis of order-tracking measurement for bearing fault diagnosis under variable speed, ” Entropy, Vol. 18, No. 2, 292 (SCI, EI)

6

T. Y. Wu*, C. H. Lai and D. C. Liu, 2016, “Defect diagnostics of roller bearing using instantaneous frequency normalization under fluctuant rotating speed, ” Journal of Mechanical Science and Technology, Vol. 30, No. 3, pp. 1037-1048. (SCI, EI)

7

C. Y. Yang and T. Y. Wu*, 2015, “Diagnostics of gear deterioration using EEMD approach and PCA process,” Measurement, Vol. 61, pp. 75-87. (SCI, EI).

8

S. D. Wu, C. W. Wu, T. Y. Wu*, and C. C. Wang, 2013, “Multi-scale Analysis Based Ball Bearing Defect Diagnostics Using Mahalanobis Distance and Support Vector Machine,” Entropy, Vol. 15, pp. 416-433. (SCI, EI)

9

W. Y. Chang, A. Huang, C. Y. Yang, C. H. Lee, Y. C. Chen, T. Y. Wu, G. S. Chen, 2013, “Computer-Aided Diagnosis of Skin Lesions Using Conventional Digital Photography: A Reliability and Feasibility Study,” Plos One, Vol. 8, No. 11, e76212. (SCI)

10

T. Y. Wu, J. C. Chen and C. C. Wang, 2012, “Characterization of Gear Faults in Variable Rotating Speed Using Hilbert-Huang Transform and Instantaneous Dimensionless Frequency Normalization,” Mechanical Systems and Signal Processing, Vol. 30, pp. 103-122. (SCI, EI)

11

T. Y. Wu, H. C. Hong and Y. L. Chung, 2012, “A Looseness Identification Approach for Rotating Machinery Based on Post-Processing of Ensemble Empirical Mode Decomposition and Autoregressive Modeling,” Journal of Vibration and Control, Vol. 18, No. 6, pp. 796-807.(SCI, EI)

12

T. Y. Wu, and Y. L. Chung, 2010, “Structural Acoustic Reduction via Piezoelectric Actuation and Adaptive Eigenvector Optimization Algorithm,” Journal of Intelligent Material Systems and Structures, Vol. 21, No. 18, pp. 1797-1808. (SCI, EI)

13

T. Y. Wu, Y. L. Chung and C. H. Liu, 2010, “Looseness Diagnosis of Rotating Machinery via Vibration Analysis through Hilbert-Huang Transform Approach,” Transactions of the ASME, Journal of Vibration and Acoustics, Vol. 132, No. 3, 031005. (SCI, EI)

14

R. J. Chen, J. Y. Yang, T. Y. Wu, Y. L. Chung and C. C. Wang, 2010, “Vibration Analysis and Fault Diagnosis of Rotating Machinery via Hilbert-Huang Transform,” Journal of the Mechatronics Industry, Industrial Technology Research Institute, Vol. 328, pp. 13-23.

15

T. Y. Wu, 2009, “An Adaptive Left-Right Eigenvector Evolution Algorithm for Vibration Isolation Control,” Smart Materials and Structures, Vol. 18, No. 11, 115027. (SCI, EI)

16

T. Y. Wu, and K. W. Wang, 2009, “Reduction of Structural Acoustic Radiation via Left and Right Eigenvector Assignment Approach,” Journal of Intelligent Material Systems and Structures, Vol. 20, No. 18, pp. 2173-2186. (SCI, EI)

17

T. Y. Wu and Y. L. Chung, 2009, “Misalignment Diagnosis of Rotating Machinery through Vibration Analysis via Hybrid EEMD and EMD approach,” Smart Materials and Structures, Vol. 18, No. 9, 095004. (SCI, EI)

18

T. Y. Wu, and K. W. Wang, 2008, “Active Vibration Isolation via Simultaneous Left-Right Eigenvector Assignment,” Smart Materials and Structures, Vol. 17, No. 1, 015048. (SCI, EI)

19

T. Y. Wu, and K. W. Wang, 2007, “Periodic Isolator Design Enhancement via Vibration Confinement through Eigenvector Assignment and Piezoelectric Circuitry,” Journal of Vibration and Control, Vol. 13, No. 7, pp. 989-1006. (SCI, EI)

20

Mingsian R. Bai, and T. Y. Wu, 1998, “Simulations of an Internal Model-Based Active Noise Control System for Suppressing Periodic Disturbances,” Transactions of the ASME, Journal of Vibration and Acoustics, Vol. 120, pp. 111-116. (SCI, EI)

21

Mingsian R. Bai, and T. Y. Wu, 1997, “Study of the Acoustic Feedback Problem of Active Noise Control by Using the and Vector Space Optimization Approaches,” Journal of Acoustical Society of America, Vol. 102, No. 2, pp. 1004-1012. (SCI, EI)
研討會論文

1

T. Y. Wu and C. C. Yeh, “Experiment Design of Bi-Stable Oscillator for Electromagnetic Induction Energy Harvesting,” Advances in Mechanism and Machine Science - Proceedings of the 15th IFToMM World Congress on Mechanism and Machine Science, Part XVII Vibrations, 3985-3993.(Krakow, Poland 波蘭克拉科夫; 2019/06/30-07/04).

2

C. H. Lu, T. H. Chen and T. Y. Wu, 2019, “Diagnosis of concurrent multiple bearing fault using ICA and EMD,” Proceedings of The 27th National Conference on Sound and Vibration, 034. (Taoyuan Taiwan; 2019/06/22).

3

T. Y. Wu and H. T. Chuang, “On Energy Harvesting via Bi-stable Piezoelectric Vibration Structure,” Proceedings of the 25th International Congress on Sound and Vibration, T01, RS04, 575.(Hiroshima, Japan日本廣島; 2018/07/8-12)

4

T. Y. Wu* and C. C. Sun, 2017, “On numerical analysis and experiment verification of characteristic frequency of angular contact ball-bearing in high speed spindle system,” Proceedings of the 24th International Congress on Sound and Vibration, T07SS05, 1123.(London, United Kingdom英國倫敦; 2017/07/23-27)

5

P. J. Chao, T. Y. Wu* and H. T. Chuang, 2016, “Bi-Stable Vibration Structure for Energy Harvesting and Its Parameters Study,” Proceedings of The 33rd National Conference on Mechanical Engineering, B-9, 1579. (Hsinchu, Taiwan 台灣新竹; 2016/12/03-04)

6

H. Y. Lin, T. Y. Wu* and T. J. Hsu, 2016, “On energy dissipation of bi-stable structure for vibration control and its parameter study,” Proceedings of The 33rd National Conference on Mechanical Engineering, B-9, 1637. (Hsinchu, Taiwan 台灣新竹; 2016/12/03-04)

7

C. C. Sun, T. Y. Wu*, and K. W. Lei, 2016, “Numerical Analysis and Experiment Validation of Dynamic Characteristic Frequency of Angular Contact Ball-Bearing at High Speed Spindle System,” Proceedings of The 33rd National Conference on Mechanical Engineering, B-5, 1640. (Hsinchu, Taiwan 台灣新竹; 2016/12/03-04)

8

T. Y. Wu, C. H. Lai and C. S. Liu, 2016, “Angle-Order Analysis Based Bearing Flaw Diagnosis via Hardware Implemented Order Tracking Technique,” Proceedings of the 23rd International Congress on Sound and Vibration, RS02, 815.(Athens, Greece 希臘雅典; 2016/07/10-14)

9

T. Y. Wu and C. L. Yu, 2015, “Order Tracking Based Bearing Fault Diagnosis through MSE Analysis and Decision Tree,” Proceedings of the 22nd International Congress on Sound and Vibration, RS02, 644. (Florence, Italy 義大利佛羅倫斯; 2015/07/12-16)

10

T. Y. Wu, C. H. Lai, and T. C. Chang, 2014, “Intelligent Diagnostics of Roller Bearing Fault under Fluctuant Rotation Speed,” Proceedings of the 5th International Conferences on Advanced Manufacturing, S0119, No. 133. (Best paper nomination; Chiayi, Taiwan 台灣嘉義; 2014/09/30-10/03)

11

T. Y. Wu and Y. S. Lin, 2014, “Bearing Defect Identification under Variable Speed via Hilbert-Huang Transform and Amplitude Normalization,” Proceedings of the 21st International Congress on Sound and Vibration, R16, 378. (Beijing, China 中國北京; 2014/07/13-17)

12

T. Y. Wu, Y. S. Lin, C. T. Liao, 2013, “Roller Bearing Defect Identification under Variable Rotating Speed Using Hilbert-Huang Transform and Amplitude Normalization via Hardware Implemented Order-Tracking Technique,” Proceedings of The 29th National Conference on Mechanical Engineering, B-10, 1580. (Ilan, Taiwan 台灣宜蘭; 2013/12/06-07)

13

T. Y. Wu, C. H. Lai, and Y. S. Lin, 2013, “Feature Extraction for Bearing Defect Identification under Variable Rotation Speed,” Proceedings of the 20th International Congress on Sound and Vibration, R22, 427. (Bangkok, Thailand 泰國曼谷; 2013/07/07-11)

14

T. Y. Wu and C. H. Lai, 2012, “Application of Hilbert-Huang Transform and Support Vector Machine on Defect Diagnosis of Roller Bearing System,” Proceedings of the 19th International Congress on Sound and Vibration, R16, 121. (Vilnius, Lithuania 立陶宛維爾紐斯; 2012/07/07-12)

15

T. Y. Wu, C. H. Lai and Y. S. Lin, 2012, “Fault Diagnosis of Roller Bearing under Variable Rotation Speed via Hilbert-Huang Transform and Dimensionless Instantaneous Frequency Normalization Techniques,” Proceedings of The 29th National Conference on Mechanical Engineering, B10-1294. (Kaohsiung, Taiwan 台灣高雄; 2012/12/07-08)

16

T. Y. Wu, Y. S. Lin and C. H. Lai, 2012, “On Bearing Defect Diagnosis under Variable Rotating Speed Using Hilbert-Huang Transform Based Feature Extraction Schemes,” Proceedings of The 36th National Conference on Theoretical and Applied Mechanics, F-004. (Jhongli, Taiwan 台灣中壢; 2012/11/16-17)

17

T. Y. Wu, T. C. Chang, J. C. Chen, C. C. Wang and C. H. Lai, 2011, “Application of Hilbert-Huang Transform to Gear Fault Diagnosis under Variable Speed,” Proceedings of The 35th National Conference on Theoretical and Applied Mechanics, E1-015, pp. 1197-1204. (Tainan, Taiwan 台灣台南; 2011/11/18-19)

18

T. Y. Wu, C. C. Wang and Y. L. Chung, 2011, “The Bearing Fault Diagnosis of Rotating Machinery by Using Hilbert-Huang Transform,” Proceedings of International Conference on Electric Information and Control Engineering, pp. 6238-6241, (EI) (Wuhan, China 中國武漢; 2011/04/15-17).

19

T. Y. Wu, C. C. Wang, H. M. Fu, Y. M. Huang and Y. L. Chung, 2010, “Application of Hilbert-Huang Transform to the Bearing Fault Diagnosis of Rotating Machinery,” Proceedings of Taiwan Wind Energy, G3-22, pp. 308-312. (Penghu, Taiwan 台灣澎湖; 2010/12/17)

20

T. Y. Wu, and Y. L. Chung, 2009, “Optimal Eigenvectors Design for Structural Noise Reduction through Adaptive Sandwich Algorithm,” Proceedings of The ASME International Mechanical Engineering Congress and Exposition, IMECE2009, Vol. 15, pp. 453-461.(EI)(Lake Buena Vista, Florida, USA 美國佛羅里達; 2009/11/13-19)

21

T. Y. Wu, H. C. Hong, H. M. Fu, and Y. L. Chung, 2009, “Applications of Ensemble Empirical Mode Decomposition (EEMD) and Auto-Regressive (AR) Model for Diagnosing Looseness Faults of Rotating Machinery,” Proceedings of The 26th National Conference on Mechanical Engineering, B21-005. (Tainan, Taiwan 台灣台南; 2009/11/20-21)

22

T. Y. Wu, Y. L. Chung and K. H. Huang, 2008, “EEMD Based technique for Identifying Looseness of Rotating Machinery through Analyzing Marginal Hilbert Spectrum,” Proceedings of The 32nd National Conference on Theoretical and Applied Mechanics, H018. (Chiayi, Taiwan 台灣嘉義; 2008/11/28-29)

23

T. Y. Wu, Y. L. Chung and H. C. Hong, 2008, “Looseness Fault Identification of Rotating Machinery through Analyzing Power Spectral Density Distribution of Vibration Signals, ” Proceedings of The 25th National Conference on Mechanical Engineering, B21-06, 0575. (Changhua, Taiwan 台灣彰化; 2008/11/21-22)

24

T. Y. Wu, and K. W. Wang, 2007, “Active Control of Structural Acoustic Radiation via Eigenvector Assignment Techniques,” Proceedings of the 17th International Conference on Adaptive Structures and Technologies, pp.41-52. (Scholarship Award Winner)(Taipei, Taiwan 台灣台北; 2006/10/16-19)

25

T. Y. Wu, and K. W. Wang, 2005, “Vibration Isolation Control via Simultaneous Left and Right Eigenvector Assignment,” Proceedings of ASME International Design Engineering Technical Conferences and Computers and information in Engineering Conference (DETC2005): 20th Biennial Conf. on Mechanical Vibration and Noise, Vol. 1 C, pp. 2323-2330. (EI) (Long Beach, California, USA 美國加州長堤; 2005/9/24-28)

26

T. Y. Wu, and K. W. Wang, 2005, “Vibration Control via Disturbance Rejection through Left Eigenvector Assignment,” Proceedings of SPIE-The International Society for Optical Engineering, Smart Structures and Materials, Vol. 5760, pp. 378-389. (EI) (San Diego, USA 美國聖地牙哥)

27

T. Y. Wu, and K. W. Wang, 2004, “Vibration Isolator Design via Energy Confinement through Eigenvector Assignment and Piezoelectric Networking,” Proceedings of SPIE-The International Society for Optical Engineering, Smart Structures and Materials, Vol. 5386, pp. 11-25. (EI) (San Diego, USA 美國聖地牙哥)