陳思文

基本資料

姓名:
陳思文


電子信箱:

chensw@mail.cgu.edu.tw


連絡電話/傳真:
TEL: +886-3-2118800 ext.5792

FAX: +886-3-2118507


服務機構 / 服務單位 / 現任職稱 (可多項填寫)
Professor, Department of Electronic Engineering, Chang Gung University


機構地址:
259 Wen-Hwa 1st Road, Kwei-Shan, Taoyuan County,33302,Taiwan, (R.O.C.)

 

個人網站:


研究領域:
Biomedical Engineering


個人簡歷


Education:

PhD (Biomedical Engineering), The Ohio State University (USA), 1994/04~1997/08

MS (Electrical Engineering), The Ohio State University (USA), 1991/09~1993/06

BS (Electrical Engineering), National Taiwan University, 1985/10~1989/06


發表論文或著作等

期刊論文(Selected)

1. Y. H. Chen, S.-W. Chen*, M.-X. Wei, “A VLSI Implementation of Independent Component Analysis for Biomedical Signal Separation Using CORDIC Engine,” IEEE Transactions on Biomedical Circuits and Systems, vol. 14, no. 2, pp. 373-381, Feb 2020. (SCI, IF=4.042, Ranking: 52/266, ENGINEERING, ELECTRICAL & ELECTRONIC).

2. G. Kuo, S.-W. Chen, J.-Y. Huang, C.-Y. Wu, C.-M. Fu, C.-H. Chang, S.-H. Liu, Y.-H. Chan, I-W. Wu, H.-Y. Yang*, “Short-term heart rate variability as a predictor of long-term survival in patients with chronic hemodialysis: A prospective cohort study,” Journal of the Formosan Medical Association, DOI: 10.1016/j.jfma.2018.09.006, Oct 2018. (SCI, IF=3.008, Ranking: 42/165, MEDICINE, GENERAL & INTERNAL).

3. Y. H. Chen, S.-W. Chen*, Y. Juan, “Very-large-scale integration implementation of the integral pulse frequency modulation model for spectral estimation of heart rate variability,” Electronics Letters, DOI: 10.1049/el.2018.6011, Sep 2018. (SCI, IF=1.316, Ranking: 199/266, ENGINEERING, ELECTRICAL & ELECTRONIC).

4. 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, pp. 170-177, Sep 2016. (SCI, IF=5.880, Ranking: 8/38, MATERIALS SCIENCE, BIOMATERIALS).

5. 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, Feb 2016. (SCI, IF=3.434, Ranking: 8/59, MATHEMATICAL & COMPUTATIONAL BIOLOGY).

6. 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. (SCI, IF=3.275, Ranking: 15/64, INSTRUMENTS & INSTRUMENTATION).

7. 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. (SCI, IF=2.740, 27/71, MULTIDISCIPLINARY SCIENCES).

8. 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. (SCI, IF=3.434, Ranking: 8/59, MATHEMATICAL & COMPUTATIONAL BIOLOGY).

9. 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, 2014:152(10 pages), Oct 2014.(SCI, IF=1.140, Ranking: 211/266, ENGINEERING, ELECTRICAL & ELECTRONIC).

10. S.-W. Chen, J.-W. Liaw*, H.-L. Chan, Y.-J. Chang, C.-H. Ku, “A realtime fatigue monitoring and analysis system for lower extremity muscles with cycling movement,” Sensors, 14, pp. 12410-12424, Jul 2014. (SCI, IF=3.275, Ranking: 15/64, INSTRUMENTS & INSTRUMENTATION).

11. S.-W. Chen*, 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, 9(6): e99098 (12 pages), Jun 2014. (SCI, IF=2.740, 27/71, MULTIDISCIPLINARY SCIENCES).

12. S.-W. Chen*and S.-C. Chao, “Compressed sensingtechnology basedspectral estimation of heart rate variabilityusing the integral pulse frequency modulation model,” IEEE Journal of Biomedical and Health Informatics, vol. 18, no. 3, pp. 1081-1090, May 2014.(SCI, IF=5.223, Ranking: 5/59, MATHEMATICAL & COMPUTATIONAL BIOLOGY).

13.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,Mar2012.(SCI, IF=10.257, Ranking: 1/86, CHEMISTRY, ANALYTICAL).

14.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, Aug 2011. (SCI, IF=3.364, Ranking: 22/91, ENGINEERING,MULTIDISCIPLINARY).

15. 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, Apr2008.(SCI, IF=3.632, Ranking: 16/108, COMPUTER SCIENCE, THEORY & METHODS).

16. 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/Dec2007. (EI).

17.S.-W. Chen*, “A new algorithm developed based on a mixture of spectral and nonlinear techniques for the analysis of heart ratevariability,”Journal of Medical Engineering and Technology, vol. 31, no. 3, pp. 210-219, May/Jun2007. (EI).

18. 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. (SCI, IF=1.140, Ranking: 211/266, ENGINEERING, ELECTRICAL & ELECTRONIC).

19.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, Jun2006.(SCI, IF=3.632, Ranking: 16/108, COMPUTER SCIENCE, THEORY & METHODS).

20.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, Sep/Oct2005. (EI).

21. 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, Jul2002.(SCI, IF=4.424, Ranking: 14/87,ENGINEERING, BIOMEDICAL).

22. 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, Oct2000.(SCI, IF=4.424, Ranking: 14/87,ENGINEERING, BIOMEDICAL).

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,” The Journal of China Association for Medical Informatics, no. 10, pp. 41-58, Dec 1999.

24. 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, Nov 1996. (SCI, IF=4.424, Ranking: 14/87,ENGINEERING, BIOMEDICAL).

研討會論文(Selected)

1.S.-W. Chen, J.-W. Liaw and B. Chang, “Heart rate dynamics with the applications into a quantitative evaluation of improvements on cardiac stress endurance after high intensity interval training in healthy men,” 2017 Computing in Cardiology (CinC), Rennes, 2017, pp. 1–4. DOI: 10.22489/CinC.2017.147-470.

2. S.-W.Chen, J.-M.Yang, J.-H.Yang, J.-S.Wang and C.-C.Hsu, “A Multi-scale Analysis of Fluctuations Associated with Cell Micromotion Using the Time Series Measured by Electric Cell-substrate Impedance Sensing (ECIS),” 2014 The 3rd International Symposium of Materials on Regenerative Medicine.

3. S.-W.Chen,S.-C.Chao,and H.-Y. Teng, “A reweighted l1-minimization based compressed sensing methodwith the applications into heart rate variability spectral estimationof unevenly sampled data,”inProceedings of2013BMESAnnual Meeting, 2013(2013BMESAnnual Meeting, Seattle, WashingtonUSA, 25–28Sep 2013).

4. H.-L. Chan, M.-H. Hsu, W.-Y. Hsu, W.-K. Hsu, S.-W. Chen, “Integrating physical activity detection in heart rate variability and cardiac arrhythmia analysis,” in Proc. of the 9th International Conference on Information, Communications and Signal Processing (ICICS 2013), pp. 1–3, Dec 2013.

5. S.-W.Chen, andS.-C.Chao,“Compressed sensing for Integral Pulse Frequency Modulation(IPFM)-based heart rate variability spectral estimation,”inIEEE Proceedings of the 34th Annual International Conference of the IEEE EMBS, pp. 5626–5629, 2012(34th AnnualInternational Conference of the IEEE EMBS, San Diego, California USA, 28 Aug–1 Sep 2012).

6. C.-H. Lu, T.-F. Lee, S.-W. Chen, S.-Y. Lin, C.-C. Tuan, “Evaluation of the opposition ability for hand intrinsic damage using a simple selfconstructing electromyography,” in Proc. of the 2012 6th International Conference on Genetic and Evolutionary Computing (ICGEC 2012), pp. 229–232, Aug 2012.

7. 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. 938–941, October 2011 (4th International Conference on Biomedical Engineering and Informatics, 15–17 October, 2011, Shanghai, China).

8. S.-W. Chenand 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 Sep 2011, Budapest, Hungary).

9. C.-Y.ChuandS.-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, 7–12Sep 2009, Munich, Germany).

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, 12–13Dec 2008.

11. 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, 12–13Dec 2008.

12. 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, 12–13Dec 2008.

13.C.-Y. Liao, S.-W. Feng and S.-W. Chen, “A wavelet based de-noising circuit design with its applicationsto medical signal preprocessing,”in Proceedings of Biomedical Engineering 2008 Annual Symposium(BMES 2008), page(s): 4, 12–13Dec 2008.

14.M.-Y.Huang, S.-W. Chen, P.-Y.Hsiao,andY.-F. Chen, “A discrete wavelet transform (DWT) based denoising circuitdesign with its application to medical signal processing,”inProceedings of the 2005 Workshop on Consumer Electronics and Signal Processing (WCEsp 2005), page(s):6, Nov2005.

15.W.-T.Yen, P.-Y.Hsiao,S.-W. Chen, andC.-C. Tsai, “The design of multi-lamp driving system for cold cathodefluorescent lamp,”inProceedings of the 2005 Workshop on Consumer Electronics and Signal Processing (WCEsp 2005), page(s):6, Nov2005.

16.P.-Y.Hsiao, L.-T.Li, C.-H.Chen,S.-W. Chen, andS.-J. Chen, “An FPGA architecture design of parameter-adaptive real-time image processing system foredge detection,”inProceedings of the Emerging Information Technology Conference (EITC 2005), page(s):3, Aug2005.

17. S.-W. Chenand H.-C. Chen, “Dampedexponentialmodelingforfeatureextractionofself-controlledbrainwaves,” inProceedings of the6thMeetingoftheGermanNeuroscienceSocietyandandthe30thGermanNeurobiologyConference, p. 33B, Feb2005.

18. Y.-J. Chen and S.-W. Chen, “A modified 2-D discrete wavelet transform architecture design with its applications to medical image compression,” inProceedings of Biomedical Engineering 2003 Annual Symposium(BMES 2003), page(s):4, 12–13Dec2003.

19. C.-C. Chen and S.-W. Chen, “Design of a real-time DSP-based ventriculararrhythmia diagnostic system,” inProceedings of Biomedical Engineering 2003 Annual Symposium(BMES 2003), page(s):4, 12–13Dec2003.

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

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

22. S.-W. Chen, C.-C.Chen and L.-H.Chang, “A complexity-based sequential method for ventricular arrhythmia detection,” inProceedings of the 2ndFormosa Plastic Group Symposium of Engineering Technology, no. 3, pp. 59–64, Nov 15, 2002.

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

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

25.S.-W. Chen, “Wavelet-based heart rate variability analysis for the interpretation of the precipitation of nonsustained ventricular tachycardia,” in Proceedings of the 1stFormosa Plastic Group Symposium of Engineering Technology, page(s):4, Jul13,2001.

26. 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, 30–31Oct 1999.

27. S.-W. Chenand 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, Sep, 1997 (Regional Meeting of the American Federation of Clinical Research, Chicago, IL, Sep 1997).

28. S.-W. Chenand 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, Sep 1997 (Regional Meeting of the American Federation of Clinical Research, Chicago, IL, Sep 1997).

29. S.-W. Chenand 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, 7–10May 1996.

30. S.-W. ChenandP. 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, 17May 1996.

31. S.-W. Chenand 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, 20–23Sep 1995.

32. P. M. Clarkson, S.-W. Chenand 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, 9–12May 1995.

33. S.-W. Chenand 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, 9–12May 1995.

34. 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, Apr 1995).

35. 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, Nov 1993).

36. 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, Oct1993).


專利

邏輯分析儀之資料預覽裝置及其方法, 中華民國, I397707, 陳思文,黃永昌, 2013~2030


完整個人履歷(學歷、經歷、殊榮、學會或專業認證…等)