Your browser does not support JavaScript!
光電工程系
DEPARTMENT OF ELECTRO-OPTICAL ENGINEERING NATIONAL TAIPEI UNIVERSITY OF TECHNOLOGY
網站地圖
首頁 > 教師資料 > 李忠益
李忠益

 

實驗室電話: (02)27712171 ext.4646

傳真: (02)87733216

實驗室位置: 億光 R833

E-mail: cyli@ntut.edu.tw 

李忠益 研究教師 in electro-optical engineering

研究領域

光纖通訊系統
光纖有線電視系統
光纖/微波傳輸系統
主/被動式光纖元件
主動式光纜

最高學歷
國立台北科技大學 光電工程研究所 - 博士
現任與經歷

上詮光纖通訊股份有限公司 - 工程師 2013-2014
國立台北科技大學 光電工程研究所 - 研究助理教授 2014 –

研究計劃

[1] 『新世代 光纖寬頻/5G行動通訊/超高速可見雷射光通訊 接取網路』台北科技大學發展學校重點特色計畫(2015/01 ~ 2017/12) (擔任共同計畫主持人)

[2] 『混合式雙向光纖微波、可見光雷射整合通信系統』科技部專題計畫(2014/10/01~2015/09/30) (擔任計畫主持人)

[3] 『建構雙頻(CATV/16-QAM-OFDM)混合式室內有(無)線接取光纖通信系統』產學合作案(2014/10 ~ 2015/03) (擔任共同計畫主持人、產學合作公司:聯爵科技有限公司)

[4] 『50m/30Gbps超高速可見光通信傳輸系統』產學合作案(2015/08 ~ 2015/12) (擔任共同計畫主持人、產學合作公司:達運光電有限公司)

[5] 『光纖/非可見光通信傳輸系統』產學合作案(2015/09 ~ 2016/02) (擔任共同計畫主持人、產學合作公司:從伸科技有限公司)

期刊論文

[1]       C. Y. Li*, C. L. Ying, C. Y. Lin, and C. A. Chu, “Nonlinear Distortion Evaluation in a Directly Modulated DFB LD-based Fiber Optic CATV Transport System,” Accepted, Optical Engineering, 2015.

[2]       H. H. Lu*, C. Y. Li, T. C. Lu, C. J. Wu, C. A. Chu, A. Shiva, and T. Mochii, “A bidirectional fiber-wireless and fiber-VLLC transmission system based on an OEO-based BLS and a RSOA,” Accepted, Optics Letters, 2015. (SCI, Impact Factor = 3.292@2014, Optics: 11/87)

[3]       C. H. Chang, P. C. Peng, Q. Huang, W. Y. Yang, H. L. Hu, W. C. Wu, J. H. Huang, C. Y. Li, H. H. Lu, and H. H. Yee “FTTH and two-band RoF transport systems based on an optical carrier and colorless wavelength separators,” Accepted, IEEE Photonics Journal, 2015. (SCI, Impact Factor = 2.209@2014, Optics: 22/87)

[4]       W. S. Tsai, H. H. Lu*, C. Y. Li, T. C. Lu, C. H. Liao, C. A. Chu, and P. C. Peng, “A 20-m/40-Gb/s 1550-nm DFB LD-based FSO link,” vol. 7, no. 6, pp. 7905907 (7 pages),  IEEE Photonics Journal, 2015. (SCI, Impact Factor = 2.209@2014, Optics: 22/87)

[5]       C. Y. Li, H. H. Lu*, T. C. Lu, C. A. Chu, B. R. Chen, C. Y. Lin, and P. C. Peng, “A hybrid CATV/MMW/BB lightwave transmission system based on fiber-wired/fiber-wireless/fiber-VLLC integrations,” vol. 23, no. 25, pp. 31807-31816, Optics Express, 2015. (SCI, Impact Factor = 3.488@2014, Optics: 10/87)

[6]       C. L. Ying, H. H. Lu*, C. Y. Li, C. Y. Lin, Z. W. Wan, and C. J. Cheng, “A 20km/80Gbps bidirectional PON employing three-stage injection-locked VCSELs/NDFs/OBPFs,” vol. 12, pp. 125202 (5pp), Laser Physics Letters, 2015. (SCI, Impact Factor = 2.458@2013, Optics: 19/87)

[7]       C. L. Ying*, and C. Y. Li, “Progressive and cost-effective bidirectional CATV/ wireless-over-fiber lightwave transport system,” vol. 7, no. 6, pp. 7905010, IEEE Photonics Journal, 2015.

[8]       H. H. Lu*, C. Y. Li, C. A. Chu, T. C. Lu, B. R. Chen, C. J. Wu, and D. H. Lin “A 10 m/25 Gbps LiFi transmission system based on a two-stage injection-locked 680 nm VCSEL transmitter,” vol. 40, no. 19, pp. 4563-4566, Optics Letters, 2015.

[9]       C. H. Chang, P. C. Peng, H. W. Gu, C. W. Huang, M. H. Fang, H. L. Hu, P. T. Shen, C. Y. Li, and H. H. Lu, “Hybrid OFDM and radio-over-fiber transport system based on a polarization modulator,” vol. 7, no. 5, pp. 7903708 (8 pages), IEEE Photonics Journal, 2015.

[10]   C. L. Ying, H. H. Lu*, C. Y. Li, C. A. Chu, T. C. Lu, and P. C. Peng, “A bidirectional hybrid lightwave transport system based on fiber-IVLLC and fiber-VLLC convergences,” vol. 7, no. 4, pp. 7201611 (11 pages), IEEE Photonics Journal, 2015.

[11]   C. Y. Li, H. H. Lu*, C. A. Chu, C. L. Ying, T. C. Lu, and P. C. Peng, “Hybrid wireless-over-fiber transmission system based on multiple injection-locked FP LDs,” vol. 23, no. 15, pp. 19874-19884, Optics Express, 2015.

[12]   C. L. Ying, H. H. Lu*, C. Y. Li, C. J. Cheng, P. C. Peng, and W. J. Ho, “20-Gbps optical LiFi transport system,” vol. 40, no. 14, pp. 3276-3279, Optics Letters, 2015.

[13]   C. Y. Li*, C. L. Ying, and C. Y. Lin, “Hybrid CATV/16-QAM-Digital CATV/16-QAM-OFDM in-building network over passive optical network and gradient index-plastic optical fiber/visible light communication transport,” vol. 54, no. 3, pp. 036108 1-7, Optical Engineering, 2015.

[14]   C. Y. Li, H. H. Lu*, C. L. Ying, C. J. Cheng, C. Y. Lin, Z. W. Wan, and J. H. Chen, “A full-duplex CATV/wireless-over-fiber lightwave transmission system,” vol. 23, no. 7, pp. 9221-9232, Optics Express, 2015.

[15]   C. Y. Li, H. H. Lu*, C. L. Ying, J. R. Zheng, C. Y. Lin, and Z. W. Wan, “Two-way fiber-wireless convergence systems based on two-stage injection-locked VCSELs transmitter and optical interleaver,” vol. 23, no. 4, pp. 5244-5252, Optics Express, 2015.

[16]   C. L. Ying, H. H. Lu*, C. Y. Li, C. Y. Lin, C. Y. Lin, and P. C. Peng, “A 20km/60Gbps two-way PON based on directly modulated two-stage injection-locked 1.55-μm VCSELs transmitters and negative dispersion fibers,” vol. 7, no. 1, pp. 7200409 (9 pages), IEEE Photonics Journal, 2015.

[17]   C. Y. Lin, C. Y. Li, H. H. Lu*, C. H. Chang, P. C. Peng, C. R. Lin, and J. H. Chen, “A hybrid CATV/16-QAM-OFDM in-house network over SMF and GI-POF/VLC transport,” vol. 27, no. 5, pp. 526-529, IEEE Photonics Technology Letters, 2015.

[18]   C. Y. Ying, C. Y. Li, H. H. Lu*, C. H. Chang, J. H. Chen, and J. R. Zheng, “A hybrid WDM lightwave transport system based on fiber-wireless and fiber-VLLC convergences,” vol. 6, no. 6, pp. 7200709 (9 pages), IEEE Photonics Journal, 2014.

[19]   C. H. Chang, C. Y. Li, H. H. Lu*, C. Y. Lin, J. H. Chen, Z. W. Wan, and C. J. Cheng, “A 100-Gbps multiple-input-multiple-output visible laser light communication system,” vol. 32, no. 24, pp. 4121-4127, IEEE/OSA Journal of Lightwave Technology, 2014.

[20]   H. W. Gu, P. C. Peng, Y. C. Chen, C. H. Chang, S. T. Kuo, H. H. Lu, C. Y. Li, S. S. Yang, and J. J. Jhang, “Hexagonal mesh architecture for large-area multipoint fiber sensor system,” vol. 26, no. 18, pp. 18781-1881, IEEE Photonics Technology Letters, 2014.

[21]   C. Y. Lin, C. Y. Li, H. H. Lu*, C. Y. Chen, T. W. Jhang, S. S. Ruan, and K. H. Wu, “A hybrid CATV/16-QAM-OFDM visible laser light communication system,” vol. 24, pp. 105206 (5pp), Laser Physics, 2014.

[22]   C. Y. Lin, H. H. Lu*, C. Y. Li, P. Y. Wu, P. C. Peng, T. W. Jhang, and C. Y. Lin, “Employing injection-locked FP LDs to setup a hybrid CATV/MW/MMW WDM lightwave transmission system,” vol. 39, no. 13, pp. 3931-3934, Optics Letters, 2014.

[23]   C. Y. Li, H. H. Lu*, C. H. Chang, C. Y. Lin, P. Y. Wu, J. R. Zheng, and C. R. Lin, “A bidirectional hybrid PM-based RoF and VCSEL-based VLLC system,” vol. 22, no. 13, pp. 16188-16196, Optics Express, 2014.

[24]   C. Y. Lin, H. H. Lu*, C. H. Chang, C. Y. Li, T. W. Jhang, S. S. Ruan, and K. H. Wu, “A full-duplex lightwave transmission system with an innovative VCSEL-based PM-to-IM converter,” vol. 22, no. 8, pp. 9993-10001, Optics Express, 2014.

[25]   C. Y. Li, H. S. Su, C. H. Chang, H. H. Lu, P. Y. Wu, C. Y. Chen, and C. L. Ying,“Generation and Transmission of BB/MW/MMW Signals by Cascading PM and MZM”, IEEE/OSA Journal of Lightwave Technology, vol. 30, no. 3, pp. 298-303, 2012.

[26]   W. Y. Lin, C. H. Chang, H. H. Lu, P. C. Peng, Y. P. Lin, C. Y. Chen, and C. Y. Li, “A Hybrid CATV/OFDM Long-Reach Passive Optical Network Architecture”, vol. 20, no. 4, pp. 4219-4224, Optics Express, 2012.

[27]   C. Y. Li, H. S. Su, C. Y. Chen, H. H. Lu, H. W. Chen, C. H. Chang, and C. H. Jiang, “Full-Duplex Lightwave Transport Systems Employing Phase-Modulated RoF and Intensity-Remodulated CATV Signals”, Optics Express, vol. 19, pp. 14000-14007, 2011.

[28]   H. S. Su, C. Y. Li, W. Y. Lin, H. H. Lu, C. H. Chang, P. Y. Wu, Y. P. Lin, and C. Y. Chen, “Fiber Optical CATV Transport Systems Based on PM and Light Injection-Locked DFB LD as a Duplex Transceiver”, Optics Express, vol. 19, no. 27, pp. 26928-26935, 2011.

[29]   H. S. Su, C. Y. Li, H. H. Lu, C. H. Chang, P. C. Peng, P. Y. Wu, and H. W. Chen, “RoF Transport Systems with OSNR Enhanced Multi-Band Optical Carrier Generator”, Optics Express, vol. 19, pp. 18516-18522, 2011.

[30]   H. C. Peng, H. S. Su, H. H. Lu, C. Y. Li, P. C. Peng, S. H. Wu, and C. H. Chang, “Hybrid CATV/16-QAM OFDM In-Building Networks over SMF and GI-POF Transport”, Optics Express, vol. 19, pp. 9575-9581, 2011.

[31]   P. Y. Wu, H. H. Lu, C. L. Ying, C. Y. Li, and H. S. Su, “An Up-Converted Phase Modulated Fiber Optical CATV Transport System”, IEEE/OSA Journal of Lightwave Technology, vol. 29, pp. 2422-2427, 2011.

[32]   W. J. Ho, H. C. Peng, H. H. Lu, C. L. Ying, and C. Y. Li, “Novel ROF/FTTX/ CATV Hybrid Three-Band Transport System”, Optics Express, vol. 19, pp. 6980-6989, 2011.

[33]   H. C. Peng, H. H. Lu, C. Y. Li, H. S. Su, and C. T. Hsu, “Integration of FTTH and GI-POF In-House Networks Based on Injection Locking and Direct-Detection Techniques”, Optics Express, vol. 19, pp. 6749-6755, 2011. 

研討會論文

[1]       C. Y. Li, H. H. Lu, C. A. Chu, T. C. Lu, H. H. Lin, and P. C. Peng, “A hybrid wireless-over-fiber transmission system based on multiple injection-locked FP LDs,” Accepted, Microwave Photonics (MWP 2015).

[2]       C. Y. Li, H. H. Lu, P. C. Peng, T. C. Lu, B. R. Chen, and D. H. Lin, “A bidirectional 60-GHz/30-GHz/15-GHz wireless-over-fiber transmission system,” Accepted, Wireless and Optical Communication (WOCC 2015).

[3]       Bo-Rui Chen, Chien-An Chu, Xin-Yao Lin, Chun-Ming Ho, Dai-Hua Lin, Chung-Yi Li, and Hai-Han Lu, “A Hybrid Wireless-over-Fiber Transmission System,” 2015-FRI-P0201-P002, Optics & Photonics Taiwan, International Conference (OPTIC2015).

[4]       Chang-Jen Wu, Hung-Hsien Lin, Ming-Te Cheng, Chun-Ming Ho, Chun-Yu Lin, Chung-Yi Li, and Hai-Han Lu, “A Bidirectional Wireless-over-Fiber Transmission System,” 2015-FRI-S0201-O001, Optics & Photonics Taiwan, International Conference (OPTIC2015).

[5]       Hung-Hsien Lin, Chang-Jen Wu, Zih-Yi Yang, Huang-Sheng Jhe, Chun-Yu Lin, Chung-Yi Li, and Hai-Han Lu, “A Hybrid Lightwave Transmission System Based on SMF and VCSEL-Based VLLC Convergence,” 2015-SAT-S0205-O001, Optics & Photonics Taiwan, International Conference (OPTIC2015).

[6]       Ting-Chieh Lu, Bo-Rui Chen, Huang-Sheng Jhe, Ming-Te Cheng, Chun-Yu Lin, Chung-Yi Li, and Hai-Han Lu, “A 10 m/25 Gbps LiFi Transmission System,” 2015-SAT-S0205-O002, Optics & Photonics Taiwan, International Conference (OPTIC2015).

[7]       C. Y. Li, H. H. Lu, C. Y. Lin, Z. W. Wan, and C. J. Cheng, “A 14.4-Gbps ultra-high-speed visible laser light communication system,” H3-2, International Conference on Materials for Advanced Technologies (ICMAT 2015).

[8]       C. Y. Li, C. Y. Lin, J. H. Chen, and H. H. Lu, “A hybrid CATV/16-QAM-OFDM in-House network,” 4th International Symposium on Next-Generation Electronics (IEEE ISNE 2015)

[9]       C. Y. Li, H. H. Lu, C. Y. Lin, M. C. Chen, J. H. Chen, and C. A. Chu, “A hybrid lightwave transmission system based on fiber-VLLC convergence,” W2A.66, Optical Fiber Communication Conference (OFC 2015).

[10]   J. W. Wan, H. H. Lin, C. Y. Li, C. Y. Lin, C. H. Chang, and H. H. Lu, “20km/60Gbps two-way PON based on two-stage injection-locked 1.55-μm VCSELs transmitters,” 2014-FRI-S0211-O003, Optics & Photonics Taiwan, International Conference (OPTIC 2014).

[11]   C. R. Lin, B. R. Chen, D. H. Lin, C. Y. Li, C. Y. Lin, and H. H. Lu, “Fiber-wireless and fiber-VLLC convergence systems,” 2014-FRI-S0210-O004, Optics & Photonics Taiwan, International Conference (OPTIC 2014).

[12]   J. H. Chen, C. A. Chu, C. Y. Li, C. Y. Lin, C. H. Chang, and H. H. Lu, “100 Gbps MIMO visible laser light communication systems,” 2014-FRI-S0209-O006, Optics & Photonics Taiwan, International Conference (OPTIC 2014).

[13]   C. Y. Lin, C. J, Wu, C. Y. Li, C. Y. Lin, C. L. Ying and H. H. Lu, “A hybrid lightwave transmission system based on fiber-VLLC convergence,” 2014-Fri-P0203-P023, Optics & Photonics Taiwan, International Conference (OPTIC 2014).

[14]   C. J. Cheng, T. C. Lu, C. Y. Li, C. Y. Lin, C. L. Ying, and H. H. Lu, “A hybrid CATV/16-QAM-OFDM in-house network over SMF and GI-POF/VLC transport,” 2014-Thu-P0201-P022, Optics & Photonics Taiwan, International Conference (OPTIC 2014).

[15]   V. Hsiao, T. L. Chang, H. Y. Chen, Y C. Yu, C. Y. Li, and H. H. Lu, “Optically controllable all-fiber based radio-frequency phase-shifter,” Tue, Asia-Pacific Microwave Photonics Conference (APMP 2014)

[16]   J. W. Wan, C. Y. Li, P. Y. Wu and H. H. Lu, “A hybrid CATV/16-QAM-OFDM visible laser light communication system,” JT3A.9, Advanced Photonics for Communications (APC 2014).

[17]   J. H. Chen, C. R. Lin, P. Y. Wu, C. Y. Li and H. H. Lu, “A hybrid CATV/MW/MMW WDM lightwave transmission system based on injection-locked FP LDs,” JT3A.7, Advanced Photonics for Communications (APC 2014).

[18]   C. Y. Li, C. H. Chang, P. Y. Wu, W. Y. Lin, Y. P. Lin, C. Y. Chen, and H. H. Lu, “Fiber Optical CATV Transport Systems Based on PM and Light Injection-Locked DFB LD as a Duplex Transceiver”, JTh2A.30, Optical Fiber Communication Conference (OFC 2012).

[19]   C. Y. Li, H. S. Su, C. H. Chang, P. Y. Wu, C. Y. Chen, H. H. Lu, and C. L. Ying “Bidirectional Three-Band BB/MW/MMW Lightwave Transport Systems”, PB-FR-27, International Photonics Conference (IPC 2011).

[20]   J. S. Li, C. S. Chieh, H. S. Su, C. Y. Li, P.C. Peng, and H. H. Lu, “Full-Duplex Lightwave Transport Systems”, B-FR-II 4-2, International Photonics Conference (IPC 2011).

[21]   C. H. Kuo, S. F. Fu, C. Y. Li, P. Y. Wu, P. C. Peng, and H. H. Lu, “Fiber Optical CATV Transport Systems Based on Up-Converted Phase Modulated Techniques”, B-FR-II 4-4, International Photonics Conference (IPC 2011).