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林炆標 教授

林炆標/Wen-Piao Lin
教授/Professor
Department of Electrical Engineering 
Chang Gung University, Taiwan 
電話/TEL:886-3-2118800-5493
信箱/Email:wplin@mail.cgu.edu.tw
研究領域/專長:通訊領域/光纖通訊,光子晶體,無線網路

 

Biography
Wen-Piao Lin (S’01–M’02) received the B.S.E.E. and M.S.E.E. degrees in Electrical Engineering from National Taiwan Institute of Technology, Taiwan, R.O.C. in 1982 and 1985, respectively, and the Ph.D degree in Institute of Electro-Optical Engineering, National Chiao-Tung University, Taiwan, R.O.C. in 2002. From 1985 to 1987, he joined the Hua-Eng Company, Kaohsiung, Taiwan, where he engaged in research in the area of optical fiber subscriber loops. In 2003, he joined the Faculty of Chang Gung University, Taoyunan, Taiwan, where he is currently Full Professor. He has authored or coauthored more than 60 papers in journals and conferences. He is presently interested in the millimeter-wave fiber-wireless access technologies and fiber super-continuum sources. 

 

Publication List

A. Journal papers.

1. Chien-Hung Yeh*, Jhao-Ren Chen, Wei-Yao You, Wen-Piao Lin* and Chi-Wai Chow, “Rayleigh backscattering noise alleviation in long-reach ring-based WDM access communication,” IEEE Access, vol. 8, issue 1, pp. 105065-105070, Dec. 2020. (SCI/EI, IF: 4.098, GE: 9/275)

2. Chien-Hung Yeh*, Wei-Yao You, Jhao-Ren Chen, Chi-Wai Chow and Wen-Piao Lin*, “Utilizing self-injection rayleigh backscattering feedback for channel-selected erbium laser with single-longitudinal-mode output,” Physica Scripta, vol. 95, no. 7, pp. 1-5, June 2020. (SCI/EI, IF: 2.151, PHYSICS MULTIDISCIPLINARY 31/81)

3. Chien-Hung Yeh*, Chi-Wai Chow, Wen-Piao Lin*, Jhao-Ren Chen and Wei-Yao You “Utilizing single-wavelength for OFDM wireless downstream and remodulated OOK upstream in colorless access network to mitigate Rayleigh backscattering noise”, Optical Fiber Technology, vol. 53, no. 102268, May 2020. (SCI/EI, IF: 1.824)

4.  Chien-Hung Yeh*, Bo-Shen Guo, Chong-Sin Gu, Chi-Wai Chow, and Wen-Piao Lin*, “Use of same WDM channels in fiber network for bidirectional free space optical communication with Rayleigh backscattering interference alleviation,” IEEE Access, vol. 7, Issue 1, pp. 169571-169576, Dec. 2019. (SCI/EI, IF: 4.098, GE: 9/275)

5. Chien-Hung Yeh*, Yao-Jen Chang, Wen-Piao Lin*, Yue-Ru Xie, Chien-Ming Luo, Chi-Wai Chow and Jing-Heng Chen, “62-nm CW wavelength-selectable erbium-doped fiber compound-ring laser with stable single-mode output,” Physica Scripta, vol. 94, no. 12, pp. 125801-125805, Dec. 2019. (SCI/EI, IF: 2.151)

6. Chien-Hung Yeh* Yao-Jen Chang, Chi-Wai Chow, Wen-Piao Lin*, “Utilizing polarization-multiplexing for free space optical communication transmission with security operation,” Optical Fiber Technology, vol. 52, no. 101992, Nov. 2019. (SCI/EI, IF: 1.824)

7. Chien-Hung Yeh*, Wen-Piao Lin*, Chien-Ming Luo, Yue-Ru Xie, Yao-Jen Chang, Chi Wai Chow, “Utilizing single lightwave for delivering baseband/FSO/MMW traffics simultaneously in PON architecture”, IEEE Access, vol. 7, Issue 1, pp. 138927-138931, Sep. 2019. (SCI/EI, IF: 4.098, GE: 9/275)

8. Chien-Hung Yeh*, Wen-Piao Lin*, Yue-Ru Xie. Chien-Ming Luo, Chi-Wai Chow, A selectable single-Mode erbium laser with power-flattened output employing dual-sagnac-ring,” IEEE Access, vol. 7, Issue. 1, pp. 92938-92942, July 2019. (SCI/EI, IF: 4.098, GE: 9/275)

9. Bih-Chyun Yeh* and Wen Piao Lin, “Using a calculated pulse rate with an artificial neural network to detect irregular interbeats,” Journal of Medical Systems, vol. 40, Issue 3, paper 82, March 2016. (SCI/EI, IF: 2.213)

10. Dong-Hua Yang and Wen-Piao Lin*, “Phased-array beam steering using optical true Time delay technique,” Optics Communications, vol. 35, pp. 90-96, September 2015. (SCI/EI, IF: 1.542)

11. Yuan Ouyang, Wen-Piao Lin* and Chuan-Chih Liu, “Performance analysis of the multiband orthogonal frequency division multiplexing ultrawideband systems for multipath fading and multiuser interference channels," Mathematical Problems in Engineering, vol. 2015, pp. 1-6, March 2015. (SCI/EI, IF: 0.762)

12. Han Lung Kuo and Wen Piao Lin*, “Double-Brillouin-frequency spaced multiwave -length generation in one loop structure,” Optics Letters, Vol. 39, no. 15, pp. 4565-4567, Aug. 2014 (SCI/EI, IF:3.385 ).

13. Ya Ru Jang, Wen-Piao Lin*, and Han-Lung Kuo, “Two-stage Tunable Passive Fiber Mode-Locked Laser" Microwave and Optical Technology Letters, vol. 56, no. 6, pp. 1468-1470, June 2014(SCI/EI IF:0.623; EEE: 188/248).

14. Wen-Piao Lin*, Dong-Hua Yang and Zong-De Lin, “Compact dual-band planar inverted-e-shaped antenna using defected ground structure,” International Journal of Antennas and Propagation, vol. 2014, 10 pages, Jan. 2014. (SCI/EI, IF: 0.827, EEE: 163/247)

15. Wen-Piao Lin* and Han-Lung Kuo, “A tunable fiber ring laser based on a hybrid amplifier,” Microwave and Optical Technology Letters, vol. 55, no. 12, pp. 2892-2896, Dec. 2013. (SCI/EI IF: 0.623; EEE: 188/248)

16. Wen-Piao Lin*, Yu-Fang Hsu and Han-Lung Kuo,” Design of optical nor logic gates using two dimension photonic crystals,” America J. of Modern Physics, vol. 2, no. 3, pp. 144-147, May 2013. (EI)

17. Dong-Hua Yang, Tsung-Han Liu, Po-Yu Ke, Wen-Piao Lin*, and Hsien-Chin Chiu," E-Band SIW H-plane Horn Antenna Development," International Journal of COMPEL, vol. 32, no. 2, pp. 431-441, 2013. (SCI/EI IF: 0.44)

  1. Dong-Hua Yang, Tsung-Han Liu, Po-Yu Ke, Wen-Piao Lin, and Hsien-Chin Chiu, " E-Band SIW H-plane Horn Antenna Development,," has been accepted for publication in the International Journal of COMPEL, vol. 32, no. 2, 2012. (SCI)
  2. Jeffrey S. Fu, W. P. Lin, W. Y. Lin, K. S. Chin, H. C. Chiu, H. L. Kao and Y. H. Chang, “High speed intelligent communication for tele-care early warning system – A survey,” Journal of University of Electronic Science and Technology of China, vol. 40, no. 6, pp. 802-814 , Nov. 2011. (EI)
  3. Wen-Piao Lin and Yu-Fang Hsu, “Novel tapered slot coplanar waveguide-fed antennas for ultrawideband wireless communications,” International Journal on Communications Antenna and Propagation, vol. 1, no. 5, pp. 465-470, Oct. 2011. (EI)
  4. Wen-Piao Lin and Yu-Fang Hsu, “Multiple carrier ultra-wideband systems using an optical pulse modulation scheme,” Microwave and Optical Technology Letters, vol. 52, no. 12, pp. 2735-2738, Dec. 2010. (SCI/EI; Impact Factor: 0.682; EE: 156/246)
  5. Wen-Piao Lin and Chao-Haiang Huang, “Coplanar waveguide-fed rectangular antenna with an inverted-L stub for ultra-wideband communications,” IEEE Antennas and Wireless Propagation Letters, vol. 8, pp. 228-231, May 2009. (SCI/EI; Impact Factor: 1.315; EE: 87/229)
  6. Wen-Piao Lin and Chia-Hung Ku, “Tag identification enhancement by using a distributed antenna structure for radio frequency identification systems,” IET Microwaves, Antennas and Propagation, vol. 3, no. 8, pp. 1199-1205, Dec. 2009. (SCI/EI; Impact Factor: 0.714; EE: 145/229)
  7. Wen-Piao Lin and Ruei Chi Li, “Generation of ultrawideband pulse using a distributed fiber-link system,” Optical Fiber Technology, vol. 14, no. 3, pp. 214-221, July 2008. (SCI/EI; Impact Factor: 1.253; EE: 98/229)
  8. Wen-Piao Lin and Yuan-Ching Chen, “Design of a new optical impulse radio system for ultra-wideband wireless communications,” IEEE Journal of Selected Topics in Quantum Electronics, vol. 12, no. 4, pp.882-887, Jul./Aug. 2006. (SCI/EI; Impact Factor: 2.518; EE:35/229; Cited 16 times)
  9. Wen-Piao Lin and Guang-Wei Lai, “Optoelectronic mixing phototransistor for ultrawide-band fiber-radio systems,” Japanese Journal of Applied Physics, vol. 45, no. 8A, pp. 6162-6165, Aug. 2006. (SCI/EI; Impact Factor: 1.309; AP:49/95)
  10. Wen-Piao Lin and Yuan-Ching Chen, “optically based direct sequence binary phase shift keying modulation scheme for indoor UWB wireless systems,” Japanese Journal of Applied Physics, vol. 45, no. 4A, pp. 2598-2602, Apr. 2006. (SCI/EI; Impact Factor: 1.309; AP:49/95)
  11. Wei-Ren Peng, Wen-Piao Lin, and Sien Chi, “Improved fiber Bragg grating array OFFH-CDMA system using a novel frequency-overlapping multi-group method,” IEEE/OSA Journal of Lightwave Technology, vol. 24, no. 3, pp. 1072-1081, Mar. 2006. (SCI/EI; Impact Factor: 2.736; EE:27/229; Cited 2 times)
  12. Wen-Piao Lin and Jun-Yu Chen, “Implementation of a new ultrawide-band impulse system,” IEEE Photonics Technology Letters, vol. 17, no. 11, pp. 2418-2420, Nov. 2005. (SCI/EI; Impact Factor: 2.173; Optics:12/64; Cited 32 times)
  13. Wen-Piao Lin, “A robust fiber-radio architecture for bidirectional WDM ring access network,” IEEE/OSA Journal of Lightwave Technology, vol. 23, no. 9, pp. 2610-2620, Sept. 2005. (SCI/EI; Impact Factor: 2.736; EE:27/229; Cited 4 times)
  14. Wen-Piao Lin and He-Long Wu, “Fiber Bragg gratings-based OCDMA-PON using dual-baseband modulation scheme,” Japanese Journal of Applied Physics, vol. 44, no. 8, pp. 6062-6067, Aug. 2005. (SCI/EI; Impact Factor: 1.309: AP:49/95)
  15. Wen-Piao Lin, Wei-Ren Peng and Sien Chi “Dynamic wavelength allocation in WDM radio-over-fiber access network,” Japanese Journal of Applied Physics, vol. 44, no. 3, pp. 1282-1286, March 2005. (SCI/EI; Impact Factor: 1.309: AP:49/95)

B. Conference Papers

International

  1. Wen-Piao Lin and Yu-Fang Hsu, “A real-time wireless ultra-wideband indoor positioning system with fast computation algorithm,” The 20th Int'l Conference on Internet Computing and Internet of Things (ICOMP’19), Las Vegas, USA, July 29-Aug. 1, 2019.
  2. Wen-Piao Lin and Yu-Fang Hsu, “Ultra-wideband indoor positioning based on triangle midpoint algorithm” The Seventh International Conference on Smart Cities, Systems, Devices and Technologies (SMART’18), Barcelona, Spain, July 22-26, 2018
  3. Wen-Piao Lin, Yu-Fang Hsu and Han-Lung Kuo, “Tunable All-Optical Delay Structure Based on Stimulated Brillouin Scattering Slow Light,” in 17th International Conference on Transparent Optical Networks, Budapest, Hungary, Tu.P22, July 5-9, 2015.
  4. Han Lung Kuo and Wen Piao lin,Generation of Double-Brillouin-Frequency Spaced Multiwavelength and Millimeter Wave Carrier in One Loop Structure,” IEEE International Conference on Communication Problem-Solving (ICCP), Beijing, pp.230-232, 2014.
  5. Chin-Wen Chang, Wen-Piao Lin, “Transmission of LTE signals using optical frequency multiplication by millimeter-wave photonic technology,” 7th Global Symposium on Millimeter-Waves (GSMM), Seoul, Korea, May 21~23, 2014.
  6. Y. H. Lan, H. L. Kuo, and W. P. Lin, "Comparison of Supercontinuum with Dispersion of HLNF and Solution of Bandwidth Limitation in Loop Cavity", in 3rd Advanced Lasers and Photon Sources, Yokohama, Japan, 2014, p.191-192.
  7.  Yaru Jhang and Wen-Piao Lin,75 nm-Wide Tunable Ytterbium Doped Fiber Ring Laser Based on Bidirectional Pumping Scheme,” The 2nd Advanced Lasers and Photon Sources (ALPS’13), Yokohama, Japan, Apr. 23 - Apr. 25, 2013.
  8.  Wen-Piao Lin and Yu-Fang Hsu, “A new 60 GHz photonic radio-over-fiber scheme for multiband OFDM wireless systems,” in 14th International Conference on Transparent Optical Networks, Coventry, England, Mo.C3.2, July 2-6, 2012. (EI, Oral Presentation)
  9. Wei-Hsueh Wen, Jia Liu, Wen-Piao Lin, Guangmin Sun, “Millimeter-wave photonic techniques for radio-over-fiber systems,” in 14th International Conference on Advanced Communication Technology, PyeongChang, South Korea, B7-04, Feb. 19-22, 2012. (EI, Oral Presentation)
  10. Wen-Piao Lin and Yu-Fang Hsu, "Design of optical NOR logic gates using 2-D photonic crystalshe," 14th International Symposium on Electrets,  Montpellier, France, August 2011. (EI; Poster Presentation)
  11.  Tzu-Wei Huang and Wen-Piao Lin, Broadband tunable 1060 nm fiber ring laser based on hybrid amplifier with 45 nm tuning range, in Proc. 2011 Cross Strait Quad-Regional Radio Science and Wireless Technology Conference, Harbin, China, July 26-30, 2011.
  12. Wen-Piao Lin and Yu-Fang Hsu, “Improvement of dispersion induced radio power fading for MB-OFDM UWB-over-fiber systems,” 13th Interference Conference on Transparent Optical Networks, Stockholm, Sweden, Mo.AII-5, June 2011. (EI; Invited Presentation)
  13. Wen-Piao Lin and Chuan-Chih Liu, “Improvement of multi-path fading and multi-user interference for UWB-over-Fiber systems,” in Proc. High Speed Intelligent Communication Forum 2011, Hong Kong, May 30-31, 2011.
  14. Yi-Shu Chen and Wen-Piao Lin, “Phase compensation to overcome dispersion penalty for ultra wideband-over-fiber systems,” IEEE Photonics Global Conference 2010, Singapore, Dec. 14-16, pp. 1-4.
  15.  Wen-Piao Lin and Yu-Fang Hsu, Impulse ultra-wideband signals for multiple carrier radio-over-fiber communication systems,” The 15th Optoelectronics and Communications Conference, Sapporo, Japan, pp. 1-3, July 2010. (EI, Oral Presentation)
  16. Wen-Piao Lin and Yu-Fang Hsu, “New time-frequency code scheme for bidirectional ultra-wideband WDM access networks,” 35th European Conference on Optical Communication, Vienna, Austria, paper 4.5.5, Sep. 2009. (EI, Oral Presentation)
  17. Wen-Piao Lin and Yu-Yi Lin, “Multi-carrier ultra-wideband systems using a new pulsed modulation scheme,” 14th OptoElectronics and Communications Conference, Hong Kong, ThLP41, July 2009. (EI; Poster Presentation)
  18. Wen-Piao Lin and Yu-Fang Hsu, “Tag identification enhancement by using a distributed antenna structure for radio frequency identification systems,” 13th International Symposium on Consumer Electronics, Kyoto, Japan, pp.418-422, May 2009.
  19. Hao-Yu Chan, Heng-Te Li, Chia-Wei Chao, and Wen-Piao Lin, “Bidirectional MB-OFDM ultra-wideband WDM access networks using a time frequency code scheme,” 6th International Conference on Electrical Eng./ Electronic, Computer, Telecommunication and Information Technology, Pattaya, Thailand, vol. 2, pp. 980-982, May 2009.(EI, Oral Presentation)
  20. Heng-Te Li, Hao-Yu Chan, Chia-Wei Chao, and Wen-Piao Lin, “Performance study of wireless universal serial bus transmission system,” 11th International Conference on Advanced Communication Technology, Phoenix Park, Korea, pp.193-195, Feb 2009.(EI, Oral Presentation)
  21. Wen-Piao Lin and Hsin Hui Chien, “Optical ultra-wideband pulses for multi-channel radio-over-fiber communication systems,” 10th Interference Conference on Transparent Optical Networks, Athens, Greece, vol. 4, pp. 78-81, June 2008. (EI; Invited Presentation)

C. Patents

    1. Wen-Piao Lin, Hsien-Chin Chiu and Guang-Wei Lai, 光電晶體光波-微波混波方法, Invention Patent of R.O.C., August 2011, Patent No: I347740.

    2. Wen-Piao Lin and Jun-Yu Chen, Ultra-Wide band wireless system, Invention Patent of U.S.A., July 2009, Patent No. US7558484B2.

    3. Wen-Piao Lin and Jun-Yu Chen, 超寬頻無線系統, Invention Patent of R.O.C., October,   2008, Patent No: I302063.

D. Research Projects

      1. 2016/6/15~ 2017/4/15;微波光子延時模擬器研究製作; SCRPD2F0191; 主持人;國家中山科學研究院;已結案; 6,116,000;

  1. 2016/08 - 2017/07 科技部工程處前瞻光纖載毫米波科技與應用之整合研究-子計畫二: 非線性光子毫米波可調真實時延模組之研究主持人(MOST- 105-2221-E-182-029; 計畫經費: 975,000)
  2. 2013/08 - 2016/07國科會工程處新穎光纖載毫米波系統與技術之整合研究(子計畫二) 利用非線性光纖拍頻技術在光纖載毫米波系統之研究主持人(NSC- 102-2221-E-182-065-MY3; 計畫經費: 2,745,000)
  3. 2010/08 - 2013/07國科會工程處 新世代光纖載微波系統與技術之整合研究-子計畫二:光正交分頻多工傳輸在光纖載超寬頻分波多工被動光纖擷取網路之研究”主持人(NSC-99-2221-E-182-021-MY3; 計畫經費: 2,038,000)
  4. 2007/08 - 2010/07國科會工程處 未來光通訊系統所需之新穎光電元件與技術之研究-- 子計畫二:雙向超寬頻無線光纖分波多工擷取網路的研究”主持人 (NSC-96-2628-E-182-002-MY3; 計畫經費: 3,816,000)
  5. 2007/08 - 2010/07國科會工程處 未來光通訊系統所需之新穎光電元件與技術之研究-總計畫:未來光通訊系統所需之新穎光電元件與技術之研究” 總計畫共同主持人(96-2221-E-009-128-MY3; 計畫經費: 2,013,000)
  6. 2006/08 - 2007/07國科會工程處 新潁光信號處理元件與模組及其在光通信中之應用(子計畫六):光波-微波混合技術之研究於與實現(3/3)主持人 (NSC-95-2215-E-182 -041;計畫經費: 1,107,000)
  7. 2005/08 - 2006/07國科會工程處 新潁光信號處理元件與模組及其在光通信中之應用(子計畫六):光波-微波混合技術之研究於與實現(2/3)主持人 (NSC-94-2215-E-182 -001;計畫經費: 994,000)
  8. 2004/08 - 2005/07國科會工程處 新潁光信號處理元件與模組及其在光通信中之應用(子計畫六):光波-微波混合技術之研究於與實現(1/3)主持人 (NSC-93-2215-E-182 -008;計畫經費: 954,000)
  9. 2004/04 - 2008/03 國科會工程處 大學學術追求卓越發展延續計畫/建構兆位元紀元的光電科技(II)-子計畫二:下世代光通訊與儲存技術 協同主持人(NSC 93-2752-E-009-009-PAE)
  10. 2004/02 - 2004/11工研院光電所 “Wireless Over Fiber” 主持人 (93S14-W3; 計畫經費: 400,000)

 

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