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長庚大學 電子工程學系
勤勞樸實 追求卓越
分類清單
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陳思文教授

陳思文 教授

Cafe Terrace at Night2

組別:

智慧晶片系統

分機:

5792

Email

chensw@mail.cgu.edu.tw

實驗室:

VLSI-DSP/生醫電子實驗室

(9F – E0909,分機5894)

 

學歷 (Education)

l 美國俄亥俄州立大學(OSU)工學博士 (1997/8)

l 美國俄亥俄州立大學(OSU)電機碩士 (1993/6)

l 國立臺灣大學電機工程系學士 (1989/6)

 

專長與研究領域 (Area and Research Interests)

l 學訊號/影像處理 (Medical signal/image processing)

l 醫用電子系統設計 (Medical electronic system design)

l 多核心/GPU處理器的編程設計 (Multicore/GPU programming)

l 數位訊號處理的FPGA設計 (FPGA design for DSP)

 

簡歷 (Biography)

Szi-Wen Chen was born in Taipei, Taiwan, 1966. He received the B.S. degree from National Taiwan University, and the M.S. degree from the Ohio State University (OSU), in 1989 and 1993, respectively, both are in electrical engineering. Since 1994, he had been with the Biomedical Engineering Center at OSU as a Graduate Research Associate and received his Ph.D. degree in August 1997. After then, he joined the Gait Analysis Laboratory at OSU as a Postdoctoral Researcher. Since August 2000, he has been with the Department of Electronic Engineering, where he is currently a full professor at the Chang Gung University (CGU) in Taiwan. His research interests are mostly in signal processing and related areas, including biomedical signal processing, artificial neural network, and pattern recognition techniques with the applications to the development of medical diagnostic algorithm. He is also interested in embedded systems and VLSI-DSP architectural designs.

 

教授課程 (Courses)

  l大學部課程 (undergraduate courses)

數位訊號處理 (Digital Signal Processing)

訊號與系統 (Signals and Systems)

電子電路實驗 () (Electronic and Circuit Lab II)

 

  l研究所課程 (graduate courses)

生醫電子學 (Bioelectronics)

高等數位訊號處理 (Advanced Digital Signal Processing)

 

代表著作 (Selected Publications)

(I) Refereed Papers:

1. J. M. Yang, J.-H. Yang, S.-C. Tsou, C.-H. Ding, C.-C. Hsu, K.-C. Yang, C.-C. Yang, K.-S. Chen, S.-W. Chen, J.-S. Wang, “Cell proliferation on PVA/sodium alginate and PVA/poly(γ-glutamic acid) electrospun fiber,” Materials Science and Engineering C, 66, 170-177, Apr 2016.

2. J. M. Yang, S.-W. Chen, J.-H. Yang, C.-C. Hsu, J.-S. Wang, “A quantitative cell modeling and wound-healing analysis based on the Electric Cell-substrate Impedance Sensing (ECIS) method,” Computers in Biology and Medicine, 69, pp. 134-143, Jan 2016.

3. S.-W. Chen, Y.-H. Chen, “Hardware design and implementation of a wavelet de-noising procedure for medical signal preprocessing,” Sensors, 15, pp. 26396-26414. Oct 2015.

4. S.-W. Chen, J.-W. Liaw, Y.-J. Chang, H.-L. Chan, L.-Y. Chiu, “A cycling movement based system for real-time muscle fatigue and cardiac stress monitoring and analysis,” PLoS One, 10(6): e0130798 (17 pages), Jun 2015.

5. S.-W. Chen, J.-W. Liaw, Y.-J. Chang, L.-L. Chuang, C.-T. Chien, “Combined heart rate variability and dynamic measures for quantitatively characterizing the cardiac stress status during cycling exercise,” Computers in Biology and Medicine, 63, pp. 133-142, Jun 2015.

6. S.-W. Chen, and Y.-C. Lai, “A signal-processing-based technique for P300 evoked potential detection with the applications into automated character recognition,” EURASIP Journal on Advances in Signal Processing, vol. 152, DOI: 10.1186/1687-6180-2014-152 (10 pages), 2014.

7. S.-W. Chen, J.-W. Liaw, H.-L. Chan, Y.-J. Chang, and C.-H. Ku, “A realtime fatigue monitoring and analysis system for lower extremity muscles with cycling movement,” Sensors, vol. 14, pp. 12410–12424, 2014.

8. S.-W. Chen and S.-C. Chao, “A reweighted l1-minimization based compressed sensing for the spectral estimation of heart rate variability using the unevenly sampled data,” PLoS One, vol. 9, no. 6: e99098 (12 pages), 2014.

9. S.-W. Chen and S.-C. Chao, “Compressed sensing technology-based spectral estimation of heart rate variability using the integral pulse frequency modulation model,” IEEE Journal of Biomedical Health and Informatics (title changed from IEEE Transactions on Information Technology in Biomedicine), vol. 18, no. 3, pp. 1081–1090, 2014.

10. S.-W. Chen, J.-M. Yang, J.-H. Yang, S. J. Yang, and J.-S. Wang, “A computational modeling and analysis in cell biological dynamics using Electric Cell-substrate Impedance Sensing (ECIS),” Biosensors and Bioelectronics, vol. 33, pp. 196–203, 2012.

11.   S.-W. Chen and C.-Y. Chu, “A comparison of 3D cone-beam Computed Tomography (CT) image reconstruction performance on homogeneous multi-core processor and on other processors,” Measurement, vol. 44, pp. 2035–2042, 2011.

12. H.-L. Chan, Y.-C. Siao, S.-W. Chen and S.-F. Yu, “Wavelet-based ECG compression by bit-field preserving and running length encoding,” Computer Methods and Programs in Biomedicine, vol. 90, pp. 1–8, April 2008.

13. S.-W. Chen, “A nonlinear trimmed moving averaging-based system with its application to real-time QRS beat classification,” Journal of Medical Engineering and Technology, vol. 31, no. 6, pp. 443–449, Nov/Dec 2007.

14. S.-W. Chen, “A new algorithm developed based on a mixture of spectral and nonlinear techniques for the analysis of heart rate variability,” Journal of Medical Engineering and Technology, vol. 31, no. 3, pp. 210–219, May/June 2007.

15. S.-W. Chen, “Complexity measure based sequential hypothesis testing for real-time detection of lethal cardiac arrhythmias,” EURASIP Journal on Advances in Signal Processing, vol. 2007, article ID 20957, 8 pages, 2007.

16. S.-W. Chen, H.-C. Chen and H.-L. Chan, “A real-time QRS detection method based on moving-averaging incorporating with wavelet denoising,” Computer Methods and Programs in Biomedicine, vol. 82, pp. 187–195, June 2006.

17. H.-L. Chan, W.-S. Chou, S.-W. Chen, S.-C. Fang, C.-S. Liou and Y.-S. Hwang, “Continuous and online analysis of heart rate variability,” Journal of Medical Engineering and Technology, vol. 29, no. 5, pp. 227–234, September/October 2005.

18. S.-W. Chen, “A wavelet-based heart rate variability analysis for the study of nonsustained ventricular tachycardia,” IEEE Transactions on Biomedical Engineering, vol. 49, no. 7, pp. 736–742, July 2002.

19. S.-W. Chen, “A two stage discrimination of cardiac arrhythmias using a total least squares-based Prony modeling algorithm,” IEEE Transactions on Biomedical Engineering, vol. 47, no. 10, pp.1317–1327, October 2000.

20. S.-W. Chen, “A study of the relationship between autonomic functions and precipitation of nonsustained ventricular tachycardia using a novel wavelet-based heart rate variability analysis,” The Journal of Medical Informatics, no. 10, pp. 41–58, December 1999.

21. S.-W. Chen, P. M. Clarkson and Q. Fan, “A robust sequential detection algorithm for cardiac arrhythmia classification,” IEEE Transactions on Biomedical Engineering, vol. 43, no. 11, pp. 1120–1125, November 1996.

 

(II) Conference Papers:

1. S.-W. Chen, J.-M. Yang, J.-H.Yang, J.-S. Wang, and C.-C. Hsu, “A multiscale analysis of fluctuations associated with cell micromotion using the time series measured by electric cell-substrate impedance sensing (ECIS),” The 3rd International Symposium of Materials on Regenerative Medicine (2014 ISOMRM), Tao-Yuan, Taiwan, August 2014.

2. H.-L. Chan, M.-H. Hsu, W.-Y. Hsu, W.-K. Hsu, and S.-W. Chen, “Integrating physical activity detection in heart rate variability and cardiac arrhythmia analysis,” The 9th International Conference on Information, Communications and Signal Processing, (ICICS 2013), Tainan, Taiwan, December 2013.

3. C.-H. Lu, T.-F. Lee, S.-W. Chen, S.-Y. Lin, and C.-C. Tuan, “Evaluation of the opposition ability for hand intrinsic damage using a simple selfconstructing electromyography,” 2012 6th International Conference on Genetic and Evolutionary Computing, (ICGEC 2012), Kitakyushu, Japan, August 2012.

4. S.-W. Chen and S.-C. Chao, “Compressed sensing for Integral Pulse Frequency Modulation (IPFM)-based heart rate variability spectral estimation,” in IEEE Proceedings of the 34th Annual International Conference of the IEEE EMBS, pp. 5626–5629, 2012 (34th Annual International Conference of the IEEE EMBS, San Diego, CA, USA, 28 August-1 September, 2012).

5. J.-M. Yang, S.-W. Chen, J.-H. Yang, and J.-S. Wang, “Computational modeling analysis for cell growth using Electric Cell-substrate Impedance Sensing (ECIS) based time series data,” in IEEE Proceesings of the 4th International Conference on Biomedical Engineering and Informatics (BMEI), pp. 944–947, October 2011 (4th International Conference on Biomedical Engineering and Informatics, 15-17 October, 2011, Shanghai, China).

6. S.-W. Chen and C.-Y. Chu, “Graphic Processing Unit (GPU) based hardware acceleration for high speed 3D cone-beam Computed Tomography (CT) reconstruction,” in IFMBE Proceedings, vol. 37, pp. 567–570, 2011 (5th European Conference of the International Federation for Medical and Biological Engineering, 14–18 September, 2011, Budapest, Hungary).

7. C.-Y. Chu and S.-W. Chen, “Parallel implementation for cone-beam based 3D Computed Tomography (CT) medical image reconstruction on multi-core processors,” in IFMBE proceedings, vol. 25/IV, pp. 2066-2069, 2009 (World Congress on Medical Physics and Biomedical Engineering, September 7–12, 2009, Munich, Germany).

8. Y.-C. Lai and S.-W. Chen, “Development of a signal processing-based technique for Brain Computer Interface (BCI) system with the applications to automated character recognition,” in Proceedings of Biomedical Engineering 2008 Annual Symposium (BMES 2008), page(s): 4, December 12-13, 2008.

9. C.-Y. Chuang and S.-W. Chen, “Development of an embedded system based remote, multifunctional baby care module,” in Proceedings of Biomedical Engineering 2008 Annual Symposium (BMES 2008), page(s): 4, December 12-13, 2008.

10. C.-C. Lin and S.-W. Chen, "Development of a multirate signal processing architecture with its applications to the SPIHT-based medical image compression," in Proceedings of Biomedical Engineering 2008 Annual Symposium (BMES 2008), page(s): 4, December 12-13, 2008.

11. M.-Y. Huang, S.-W. Chen, P.-Y. Hsiao, and Y.-F. Chen, “A discrete wavelet transform (DWT) based denoising circuit design with its application to medical signal processing,” in Proceedings of the 2005 Workshop on Consumer Electronics and Signal Processing (WCEsp 2005), page(s): 6, November 2005.

12. W.-T. Yen, P.-Y. Hsiao, S.-W. Chen, and C.-C. Tsai, “The design of multi-lamp driving system for cold cathode fluorescent lamp,” in Proceedings of the 2005 Workshop on Consumer Electronics and Signal Processing (WCEsp 2005), page(s): 6, November 2005.

13. P.-Y. Hsiao, L.-T. Li, C.-H. Chen, S.-W. Chen, and S.-J. Chen, “An FPGA architecture design of parameter-adaptive real-time image processing system for edge detection,” in Proceedings of the Emerging Information Technology Conference (EITC 2005), page(s): 3, August 2005.

14. S.-W. Chen and H.-C. Chen, “Damped exponential modeling for feature extraction of self-controlled brain waves,” in Proceedings of the 6th Meeting of the German Neuroscience Society and and the 30th German Neurobiology Conference, p. 33B, February 2005.

15. Y.-J. Chen and S.-W. Chen, “A modified 2-D discrete wavelet transform architecture design with its applications to medical image compression,” in Proceedings of Biomedical Engineering 2003 Annual Symposium (BMES 2003), page(s): 4, December 12-13, 2003.

16. C.-C. Chen and S.-W. Chen, “Design of a real-time DSP-based ventricular arrhythmia diagnostic system,” in Proceedings of Biomedical Engineering 2003 Annual Symposium (BMES 2003), page(s): 4, December 12-13, 2003.

17. H.-C. Chen and S.-W. Chen, “A moving average based filtering system with its application to real-time QRS detection,” in Proceedings of the Computers in Cardiology, Los Alamitos, IEEE Computer Society Press, vol. 30, pp. 585 – 588, September 2003.

18. S.-W. Chen and H.-C. Chen, “Development of a real-time QRS beat classifier using a nonlinear trimmed moving averaging-based system,” in Proceedings of the Computers in Cardiology, Los Alamitos, IEEE Computer Society Press, vol. 30, pp. 577 – 580, September, 2003.

19. S.-W. Chen, C.-C. Chen and L.-H. Chang, “A complexity-based sequential method for ventricular arrhythmia detection,” in Proceedings of the 2nd Formosa Plastic Group Symposium of Engineering Technology, no. 3, pp. 59-64, November 15, 2002.

20. L.-H. Chang, Y.-C. Lin and S.-W. Chen, “A pattern recognition incorporating temporal and spectral features for cardiac arrhythmia detection,” in Proceedings of 2002 Medical Informatics Symposium in Taiwan (MIST2002), pp. 21-23, October 3-6, 2002.

21. S.-W. Chen, C.-C. Chen and L.-H. Chang, “A complexity-based sequential method for ventricular arrhythmia detection,” in Proceedings of the 2002 Medical Informatics Symposium in Taiwan (MIST2002), pp. 17-20, October 3-6, 2002.

22. S.-W. Chen, “Wavelet-based heart rate variability analysis for the interpretation of the precipitation of nonsustained ventricular tachycardia,” in Proceedings of the 1st Formosa Plastic Group Symposium of Engineering Technology, page(s): 4, July 13, 2001.

23. S.-W. Chen, “A study of the relationship between autonomic functions and precipitation of nonsustained ventricular tachycardia using a novel wavelet-based heart rate variability analysis,” in Proceedings of the 1999 Medical Informatics Symposium in Taiwan (MIST 99), pp. 163-168, October 30-31, 1999.

24. S.-W. Chen and S. D. Nelson, “Wavelet-based sympathovagal balance marker for the short-term prediction of nonsustained ventricular tachycardia,” in Journal of Investigative Medicine, vol. 45, no. 7, p. 321A, September, 1997 (Regional Meeting of the American Federation of Clinical Research, Chicago, IL, September 1997).

25. S.-W. Chen and S. D. Nelson, “Assessment of the wavelet-based method for its application to heart rate variability (HRV) analysis,” in Journal of Investigative Medicine, vol. 45, no. 7, p. 316A, September, 1997 (Regional Meeting of the American Federation of Clinical Research, Chicago, IL, September 1997).

26. S.-W. Chen and P. M. Clarkson, “Detection of cardiac arrhythmias using a damped exponential modeling algorithm,” in IEEE Proceedings of the 1996 International Conference on Acoustics, Speech, and Signal Processing (ICASSP 96), vol. 3, pp. 1776-1779, Atlanta, GA, May 7-10, 1996.

27. S.-W. Chen and P. M. Clarkson, “Cardiac arrhythmia detection using a damped exponential modeling method,” in Proceedings of Annual Conference of Engineering, p. 4, The Ohio State University, Columbus, OH, May 17, 1996.

28. S.-W. Chen and P. M. Clarkson, “Identification of cardiac arrhythmias using a damped exponential predominant frequency algorithm,” in IEEE Proceedings of the 17th Annual International Conference of the Engineering in Medicine and Biology Society (EMBS 95), Theme 1: Cardiovascular System, pp. 181-182, Montreal, Canada, September 20-23, 1995.

29. P. M. Clarkson, S.-W. Chen and Q. Fan, “A robust sequential detection algorithm for cardiac arrhythmia classification,” in IEEE Proceedings of the 1995 International Conference on Acoustics, Speech, and Signal Processing (ICASSP 95), vol. 2, pp. 1181-1184, Detroit, MI, May 9-12, 1995.

30. S.-W. Chen and P. M. Clarkson, “Prony residual analysis for the identification of cardiac arrhythmias,” in IEEE Proceedings of the 1995 International Conference on Acoustics, Speech, and Signal Processing (ICASSP 95), vol. 2, pp. 1177-1180, Detroit, MI, May 9-12, 1995.

31. S.-W. Chen, P. M. Clarkson and Q. Fan, “A sequential technique for cardiac arrhythmia discrimination,” in Journal of Electrocardiology, vol. 28, supplement, p. 162, 1995 (International Society for Computerized Electrocardiology, Orlando, FL, April 1995).

32. B. D. Jaffe, S.-W. Chen, L. C. Potter and S. D. Nelson, “Prony frequency analysis of prolonged QRS signal averaged ECGs,” Circulation Research, vol. 41, no. 3, p. 659A, 1993 (Regional Meeting of the American Federation of Clinical Research, Chicago, IL, November 1993).

33. S.-W. Chen, B. D. Jaffe, S. D. Nelson and L. C. Potter, “Prony residual as ventricular tachycardia marker,” Circulation, vol. 88, no. 4, part 2, p. I-644, 1993 (66th Scientific Sessions, American Heart Association, October 1993).

 

專利 (Patents)

1. 陳思文,黃永昌,邏輯分析儀之資料預覽裝置及其方法,中華民國專利I397707, 2013/6

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