Menu

研究成果及相關著作目錄

A.期刊論文

[1]       X. H. Huang, C. Y. Li*, H. H. Lu, C. W. Su, Y. R. Wu, Z. H. Wang, and Y. N. Chen,WDM free-space optical communication system of high-speed hybrid signals, vol. 10, no. 6, pp. 7204207 (7pp), IEEE Photonics Journal, 2018. (SCI, Impact Factor = 2.627@2017, Optics: 27/94)

[2]       H. H. Lu*, C. W. Su, C. Y. Li, H. W, Wu, Z. H. Wang, C. W. Hung, and Y. R. Wu,Two-way lightwave transmission system with centralized-light-source and VCSEL-based upstream wavelength selector, vol. 1, no. 4, pp. 1195-1204, OSA Continuum, 2018.

[3]       Y. C. Wang, H. H. Lu*, C. Y. Li, P. H. Chew, Y. B. Jheng, W. S. Tsai, and X. H. Huang,A high-speed 84 Gb/s VSB-PAM8 VCSEL transmitter-based fiber-IVLLC integration, vol. 10, no. 5, pp. 7203608 (8pp), IEEE Photonics Journal, 2018. (SCI, Impact Factor = 2.627@2017, Optics: 27/94)

[4]       C. Y. Li, H. H. Lu*, C. W. Su, H. W. Chen, Y. N. Chen, Y. R. Wu, and C. W. Hung,Real-time PAM4 fiber-IVLLC and fiber-wireless hybrid system with parallel/orthogonally polarized dual-wavelength scheme, vol. 1, no. 2, pp. 320-331, OSA Continuum, 2018.

[5]       X. H. Huang, C. Y. Li*, H. H. Lu, C. W. Su, Y. R. Wu, Z. H. Wang, and Y. N. Chen, 6 m/10 Gbps underwater wireless red light laser transmission system,” vol. 57, no. 6, pp. 126112 (6 pages), Optical Engineering, 2018. (SCI, Impact Factor = 1.12@2017, CiteScore Rank: 84/270)

[6]       C. Y. Li, H. H. Lu*, Y. N. Chen, C. W. Su, Y. R. Wu, Z. H. Wang, and Y. P. Lin, A high-speed and long-reach PAM4 optical wireless communication system,” vol. 10, no. 4, pp. 7906109 (9pp), IEEE Photonics Journal, 2018. (SCI, Impact Factor = 2.627@2017, Optics: 27/94)

[7]       C. Y. Li, H. H. Lu*, W. S. Tsai, Z. H. Wang, C. W. Hung, C. W. Su, and Y. F. Lu, A 5 m/25 underwater wireless optical communication system,” vol. 10, no. 3, pp. 7904809 (9 pages), IEEE Photonics Journal, 2018. (SCI, Impact Factor = 2.82@2017, CiteScore Rank: 117/644)

[8]       C. Y. Li, H. H. Lu*, X. H. Huang, Y. C. Wang, J. C. Chang, and P. H. Chew, A 52 m/9 Gb/s PAM4 plastic optical fiber-underwater wireless laser transmission convergence with a laser beam reducer,” vol. 15, no. 5, pp. 050101 (5pp), Chinese Optics Letters, 2018. (SCI, Impact Factor = 1.859@2016, Optics: 39/92)

[9]       X. H. Huang, H. H. Lu*, C. Y. Li, W. S. Tsai, Y. C. Wang, Y. B. Jheng, and J. C. Chang, “Two-way wireless-over-fiber and FSO-over-fiber communication systems with one optical carrier transmission,” vol. 28, pp. 076207 (5pp), Laser Physics, 2018. (SCI, Impact Factor = 1.328@2016, Optics: 58/92)

[10]   X. H. Huang, H. H. Lu*, C. Y. Li, Y. C. Wang, J. C. Chang, Y. B. Jheng, and W. S. Tsai, Fiber-FSO/wireless convergent systems based on dual-polarization and one optical sideband transmission schemes,” vol. 28, pp. 066205 (6pp), Laser Physics, 2018. (SCI, Impact Factor = 1.328@2016, Optics: 58/92)

[11]   C. Y. Li, H. H. Lu*, W. S. Tsai, X. H. Huang, Y. C. Wang, Y. N. Chen, and Y. R. Wu, A flexible two-way PM-based fiber-FSO convergence system,” vol. 10, no. 2, pp. 7901509 (9pp), IEEE Photonics Journal, 2018. (SCI, Impact Factor = 2.291@2016, Optics: 33/92)

[12]   C. Y. Li*, and W. S. Tsai,UWOC system based on 6 m/5.2 Gbps 680-nm Vertical-Cavity Surface-Emitting Laser,” vol. 28, pp. 025202 (4 pages), Laser Physics, 2018. (SCI, Impact Factor = 1.328@2016, Optics: 58/92)

[13]   C. Y. Li*, and W. S. Tsai,A 150-m/22.5-Gbaud PAM4-based FSO link,” vol. 14, pp. 065202 (5 pages), Laser Physics Letters, 2017. (SCI, Impact Factor = 2.537@2016, Optics: 29/92)

[14]   C. H. Chang, L. S. Tu, Y. S. Huang and C. Y. Li, “Upgradable radio-over-fiber transport system,” vol. 56, no. 10, pp. 106110 (6pp), Optical Engineering, 2017. (SCI, Impact Factor = 1.082 @2016, Optics: 68/92)

[15]   C. Y. Li, H. H. Lu, W. S. Tsai, M. T. Cheng, C. M. Ho, Y. C. Wang, Z. Y. Yang, and D. Y. Chen,16 Gb/s PAM4 UWOC system based on 488-nm LD with light injection and optoelectronic feedback techniques,” vol. 25, no. 10, pp. 11598-11605, Optics Express, 2017. (SCI, Impact Factor = 3.307@2016, Optics: 17/92)

[16]   H. H. Lu*, H. W. Wu, C. Y. Li, C. M. Ho, Z. Y. Yang, M. T. Cheng, and C. K. Lu,A bidirectional fiber-IVLLC and fiber-wireless convergence system with two orthogonally polarized optical sidebands,” vol. 25, no. 9, pp. 9743-9754, Optics Express, 2017. (SCI, Impact Factor = 3.307@2016, Optics: 17/92)

[17]   H. H. Lu*, C. Y. Li, C. M. Ho, M. T. Cheng, X. Y. Lin, Z. Y. Yang, and H. W. Chen,A 64 Gb/s PAM4 VCSEL-based FSO link,” vol. 25, no. 5, pp. 5749-5757, Optics Express, 2017. (SCI, Impact Factor = 3.307@2016, Optics: 17/92)

[18]   C. H. Chang, Y. S Huang, and C. Y. Li, “Investigation of utilizing a VCSEL diode to work as a tunable optical bandpass filter,” vol. 27, pp. 045101 (6pp), Laser Physics Letters, 2017. (SCI, Impact Factor = 2.537@2016, Optics: 29/92)

[19]   P. C. Peng, J. J. Jhang, Y. W. Peng, M. A. Bitew, Y. C. Chi, W. C. Wu, H. Y. Wang, G. R. Lin, C. Y. Li, and H. H. Lu, “Tunable C- and L-band laser source based on colorless laser diode,” vol. 14, pp. 035806 (4pp), Laser Physics Letters, 2017. (SCI, Impact Factor = 2.537@2016, Optics: 29/92)

[20]   H. H. Lu*, C. Y. Li, C. K. Lu, C. M. Ho, H. W. Chen, M. T. Cheng, Z. Y. Yang, and S. J. Huang, A 103.12 Gb/s WDM PAM4 VCSEL-based transmission with light injection and optoelectronic feedback techniques,” vol. 9, no. 1, pp. 7900808 (8pp), IEEE Photonics Journal, 2017. (SCI, Impact Factor = 2.291@2016, Optics: 33/92)

[21]   H. H. Lu*, C. Y. Li, H. W. Chen, C. M. Ho, M. T. Cheng, Z. Y. Yang, and C. K. Lu, A 56 Gb/s PAM4 VCSEL-based LiFi transmission with two-stage injection-locked technique,” vol. 9, no. 1, pp. 7900208 (8pp), IEEE Photonics Journal, 2017. (SCI, Impact Factor = 2.291@2016, Optics: 33/92)

[22]   H. H. Lu*, C. Y. Li, H. W. Chen, Z. Y. Yang, X. Y. Lin, M. T. Cheng, C. K. Lu, and T. T. Shih,45 Gb/s PAM4 transmission based on VCSEL with light injection and optoelectronic feedback techniques,” vol. 41, no. 21, pp. 5023-5026, Optics Letters, 2016. (SCI, Impact Factor = 3.040@2015, Optics: 15/90)

[23]   C. Y. Li, H. H. Lu*, T. T. Shih, M. T. Cheng, C. M. Ho, X. Y. Lin, Z. Y. Yang, and S. J. Huang,A bidirectional fiber-wireless and fiber-IVLLC convergence system with a dual-polarization modulation scheme and a MZM-OEO-based BLS,” vol. 8, no. 5, pp. 7200408 (8 pages), IEEE Photonics Journal, 2016. (SCI, Impact Factor = 2.177@2015, Optics: 27/90)

[24]   H. H. Lu*, C. Y. Li, H. H. Lin, W. S. Tsai, C. A. Chu, B. R. Chen, and C. J. Wu,An 8 m/9.6 Gbps underwater wireless optical communication system,” vol. 8, no. 5, pp. , IEEE Photonics Journal, 2016. (SCI, Impact Factor = 2.209@2014, Optics: 22/87)

[25]   H. H. Lu*, C. Y. Li, H. W. Chen, C. M. Ho, M. T. Cheng, S. J. Huang, Z. Y. Yang, and X. Y. LinBidirectional fiber-wireless and fiber-IVLLC integrated system based on polarization-orthogonal modulation scheme,” vol. 24, no. 15, pp. 17250-17258, Optics Express, 2016. (SCI, Impact Factor = 3.488@2014, Optics: 10/87)

[26]   C. Y. Li, H. H. Lu*, T. C. Lu, C. J. Wu, C. A. Chu, and H. H. Lin,A 100 m/320 Gbps SDM FSO link with doublet lens scheme,” vol. 13, pp. 075201 (6 pages), Laser Physics Letters, 2016. (SCI, Impact Factor = 2.458@2014, Optics: 19/87)

[27]   W. S. Tsai, H. H. Lu*, C. Y. Li, T. C. Lu, H. H. Lin, B. R. Chen, and C. J. Wu,A 50 m/320 Gbps DWDM FSO communication with afocal scheme,” vol. 8, no. 3, pp. (7 pages), IEEE Photonics Journal, 2016. (SCI, Impact Factor = 2.209@2014, Engineering, Electrical & Electronic: 49/249)

[28]   W. S. Tsai, H. H. Lu*, C. Y. Li, T. C. Lu, C. H. Liao, C. A. Chu, and P. C. Peng,A 50 m/40 Gbps 680-nm VCSEL-based FSO communication,” vol. 8, no. 2, pp. 7903008 (8 pages), IEEE Photonics Journal, 2016. (SCI, Impact Factor = 2.209@2014, Engineering, Electrical & Electronic: 49/249)

[29]   C. Y. Li, H. H. Lu*, C. Y. Lin, C. A. Chu, B. R. Chen, H. H. Lin, and C. J. Wu,Fiber-wireless and fiber-IVLLC convergences based on MZM-OEO-based BLS,” vol. 8, no. 2, pp. 7902810 (10 pages), IEEE Photonics Journal, 2016. (SCI, Impact Factor = 2.209@2014, Engineering, Electrical & Electronic: 49/249)

[30]   C. Y. Lin, C. Y. Li, H. H. Lu*, C. H. Chang, Z. W. Wan, C. Y. Lin, and J. H. Chen,A hybrid lightwave transport system based on a BLS with an OSNR enhancement scheme,” vol. 13, pp. 045205 (7 pages), Laser Physics Letters, 2016. (SCI, Impact Factor = 2.458@2014, Optics: 19/87)

[31]   W. S. Tsai, H. H. Lu*, C. Y. Li, B. R. Chen, H. H. Lin, and D. H. Lin,A hybrid lightwave transmission system based on light injection/optoelectronic feedback techniques and fiber-VLLC integration,” vol. 13, pp. 046201 (7 pages), Laser Physics Letters, 2016. (SCI, Impact Factor = 2.458@2014, Optics: 19/87)

[32]   H. H. Lu*, C. Y. Li, T. C. Lu, C. J. Wu, C. A. Chu, A. Shiva, and T. Mochii, “Bidirectional fiber-wireless and fiber-VLLC transmission system based on an OEO-based BLS and a RSOA,” vol. 41, no. 3, pp. 476-479, Optics Letters, 2016. (SCI, Impact Factor = 3.292@2014, Optics: 11/87)

[33]   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,” vol. 54, no. 12, pp. 126112 (4 pages), Optical Engineering, 2015. (SCI, Impact Factor = 0.954 @2014, Optics: 64/87)

[34]   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. YeeFTTH and two-band RoF transport systems based on an optical carrier and colorless wavelength separators,” vol. 8, no. 1, pp. 7900308 (8 pages), IEEE Photonics Journal, 2015. (SCI, Impact Factor = 2.209@2014, Engineering, Electrical & Electronic: 49/249)

[35]   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, Engineering, Electrical & Electronic: 49/249)

[36]   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)

[37]   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@2014, Optics: 19/87)

[38]   C. L. Ying*, C. Y. Li, “Progressive and cost-effective bidirectional CATV/ wireless-over-fiber lightwave transport system,” vol. 7, no. 6, pp. 7905010 (11 pages), IEEE Photonics Journal, 2015. (SCI, Impact Factor = 2.209@2014, Engineering, Electrical & Electronic: 49/249)

[39]   H. H. Lu*, C. Y. Li, C. A. Chu, T. C. Lu, B. R. Chen, C. J. Wu, and D. H. LinA 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. (SCI, Impact Factor = 3.292@2014, Optics: 10/86)

[40]   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. (SCI, Impact Factor = 2.209@2014, Engineering, Electrical & Electronic: 49/249)

[41]   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. (SCI, Impact Factor = 2.209@2014, Engineering, Electrical & Electronic: 49/249)

[42]   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. (SCI, Impact Factor = 3.488@2014, Optics: 9/86)

[43]   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. (SCI, Impact Factor = 3.292@2014, Optics: 10/86)

[44]   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. (SCI, Impact Factor = 0.958 @2013, Optics: 55/83)

[45]   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. (SCI, Impact Factor = 3.525@2013, Optics: 6/83)

[46]   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. (SCI, Impact Factor = 3.525@2013, Optics: 6/83)

[47]   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. (SCI, Impact Factor = 2.330@2013, Optics: 19/83)

[48]   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. (SCI, Impact Factor = 2.176@2013, Optics: 20/83)

[49]   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. (SCI, Impact Factor = 2.330@2013, Optics: 19/83)

[50]   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. (SCI, Impact Factor = 2.862@2013, Optics: 16/83)

[51]   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. (SCI, Impact Factor = 2.176@2013, Optics: 20/83)

[52]   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. (SCI, Impact Factor = 1.025@2013, Optics: 53/83)

[53]   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. (SCI, Impact Factor = 3.179@2013, Optics: 10/83)

[54]   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. (SCI, Impact Factor = 3.525@2013, Optics: 6/83)

[55]   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. (SCI, Impact Factor = 3.525@2013, Optics: 6/83)

[56]   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. (SCI, Impact Factor = 2.255@2010, Optics: 14/78)

[57]   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. (SCI, Impact Factor = 3.749@2010, Optics: 5/78)

[58]   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. (SCI, Impact Factor = 3.749@2010, Optics: 5/78)

[59]   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. (SCI, Impact Factor = 3.749@2010, Optics: 5/78)

[60]   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. (SCI, Impact Factor = 3.749@2010, Optics: 5/78)

[61]   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. (SCI, Impact Factor = 3.749@2010, Optics: 5/78)

[62]   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. (SCI, Impact Factor = 2.255@2010, Optics: 14/78)

[63]   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. (SCI, Impact Factor = 3.749@2010, Optics: 5/78)

[64]   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. (SCI, Impact Factor = 3.749@2010, Optics: 5/78)

[65]   C. C. Lin, H. H. Lu*, W. J. Ho, H. C. Peng, and C. Y. Li, “A Bidirectional WDM Transport System Based on RSOAs and Optoelectronic Feedback Technique”, IEEE Communications Letters, vol. 14, pp. 969-971, 2010. (SCI, Impact Factor = 1.140@2009, Telecommunications: 24/77)

[66]   H. H. Lu*, W. Y. Lin, H. C. Peng, C. Y. Li, and H. S. Su, “Fiber-to-the-Home Integration with Digital Link on Microwave Subcarrier Transport Systems”, Progress In Electromagnetics Research C (PIER C), vol. 7, pp. 125-136, 2009. (SCI, Impact Factor = 4.735@2008, Telecommunications: 1/67)

[67]   H. H. Lu*, C. Y. Li, C. H. Lee, Y. C. Hsiao, and H. W. Chen, “Radio-over-Fiber Transport Systems Based on DFB LD with Main and -1 Side Modes Injection-Locked Techniques”, Progress In Electromagnetics Research Letters (PIER L), vol. 7, pp. 25-33, 2009. (SCI, Impact Factor = 4.735@2008, Telecommunications: 1/67)

[68]   S. J. Tzeng, H. H. Lu*, C. Y. Li, K. H. Chang, and C. H. Lee, “CSO/CTB Performance Improvement by Using Fabry-Perot Etalon at the Receiving Site”, Progress In Electromagnetics Research Letters (PIER L), vol. 6, pp. 107-113, 2009. (SCI, Impact Factor = 4.735@2008, Telecommunications: 1/67)

[69]   H. W. Chen, H. H. Lu*, S. J. Tzeng, H. C. Peng, and C. Y. Li, “Analysis on DFB Laser Diode with Main and Multiple Side Modes Injection-Locked”, Laser Physics, vol. 19, no. 6, pp. 1234-1238, 2009. (SCI, Impact Factor = 0.777@2008, Optics: 38/64)

[70]   H. H. Lu*, C. Y. Li, S. J. Tzeng, H. C. Peng, and W. I. Lin, “Full-Duplex Radio-on-Fiber Transport Systems Based on Main and Multiple Side Modes Injection-Locked DFB Laser Diode”, Optical Fiber Technology, vol. 15, pp. 251-257, 2009. (SCI Impact Factor = 1.253@2008, Optics: 26/64)

[71]   H. H. Lu*, C. L. Ying, C. Y. Li, H. C. Peng, and W. I. Lin, “Externally Modulated CATV/ROF Transport Systems Based on Negative Dispersion Fiber”, Journal of Optics A: Pure and Applied Optics, vol. 11, pp. 045401-1 – 045401-5, 2009. (SCI, Impact Factor =1.742@2008, Optics: 19/64)

B.研討會論文

  1. Y. R. Wu,  Y. F. Lu, Y. N. Chen, C. W. Hung, C. Y. Li, and H. H. Lu, “ Real-Time PAM4 Fiber-IVLLC and Fiber-Wireless Hybrid Systems,” Accepted, Optics & Photonics Taiwan, International Conference (OPTIC 2018).

  2. C. W. Su, Y. R. Wu, Y. N. Chen, Z, H, Wang, C. Y. Li, and H. H. Lu, “ A 52.5-m/5-Gbps 16-QAM- OFDM GI-POF UWLT Convergence,” Accepted, Optics & Photonics Taiwan, International Conference (OPTIC 2018).

  3. C. W. Hung, Z. H. Wang, C. W. Su, Y. F. Lu, C. Y. Li, and H. H. Lu, “ 400 Gb/s/180 m PAM4 Optical Wireless Communication Systems with MZM-OEO BLS and Doublet Lenses,” Accepted, Optics & Photonics Taiwan, International Conference (OPTIC 2018).

  4. C. Y. Li, Y. R. Wu, Z. H. Wang, Y. N. Chen, H. H. Lu, and W. S. Tsai, A high-speed and long-reach UWOC link” 2950766, Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR 2018).

  5. Y. N. Chen, Y. R. Wu, Z. H. Wang, C. W. Su, C. Y. Li, and H. H. Lu, A Bidirectional Fiber-FSO/Wireless Convergence” 2955641, Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR 2018).

  6. P. H. Chew, D. Y. Chen, Y. R. Wu, Z. H. Wang, C. Y. Li, and H. H. Lu, A 25-Gbps UWOC system with a two-stage injection-locked VCSEL transmitter and an aocal scheme” 1570440143, Wireless and Optical Communication Conference (WOCC 2018).

  7. J. C. Chang, Y. C. Wang, D. Y. Chen, C. Y. Li, H. H. Lu, X. H. Huang, and W. S. Tsai, Optical-based underwater communications”, Tu2I.3, Optical Fiber Communication Conference (OFC 2018).

  8. Y. C. Wang, P. H. Chew, Y. B. Jheng, C. Y. Li, H. H. Lu, X. H. Huang, and W. S. Tsai, A 84 Gb/s VSB-PAM8 VCSEL-based Fiber-FSO convergence” M1F.1, Optical Fiber Communication Conference (OFC 2018).

  9. W. S. Tsai, H. Y. Dai, and C. Y. Li,Based on FP LDs with split band technique in two-channel fiber optical CATV transport system” ICPMMT 024, The 3st International Conference on Precision Machinery and Manufacturing Technology 2018 (ICPMMT 2018).

  10. Z. Y. Yang, M. T. Cheng, D. Y. Chen, J. K. Chi, Y. C. Wang, C. Y. Li, and H. H. Lu, A bidirectional fiber-IVLLC and fiber-wireless convergence system,” s2143, CLEO-PR, OECC and PGC 2017.

  11. J. C. Chang, J. K. Chi, C. Y. Li, W. S. Tsai, H. H. Lu,” A bidirectional fiber-IVLLC and fiber-wireless convergence system. 2017-FRI-S0207-O005, Optics & Photonics Taiwan, International Conference (OPTIC 2017).

  12. Y. C. Wang, D. Y. Chen, C. Y. Li, W. S. Tsai, H. H. Lu,” A 16 Gb/s PAM4 UWOC system.” 2017-THU-P0202-P009, Optics & Photonics Taiwan, International Conference (OPTIC 2017).

  13. P. H. Chew, Y. C. Wang, D. Y. Chen, C. Y. Li, H. H. Lu,” A high-speed 20 Gb/s PAM4 UWOC link,” 2017-FRI-S0204-O005, Optics & Photonics Taiwan, International Conference (OPTIC 2017).

  14. Y. B. Jheng, J. C. Chang, P. H. Chew, C. Y. Li , H. H. Lu, A high-speed 84 Gb/s PAM8 FSO link,” 2017-THU-P0201-P014, Optics & Photonics Taiwan, International Conference (OPTIC 2017).

  15. J. K. Chi, J. C. Chang, Y. B. Jheng, C. Y. Li, H. H. Lu, A bidirectional fiber-wireless and fiber-IVLLC integration system,” 2017-FRI-S0203-O003, Optics & Photonics Taiwan, International Conference (OPTIC 2017).

  16. C. Y. Li, H. H. Lu, T. C. Lu, W. S. Tsai, B. R. Chen, C. A. Chu, C. J. Wu, and C. H. Liao,A 100m/40Gbps 680-nm VCSEL-based LiFi transmission system,” SWEF.5, Conference on Lasers and Electro-Optics (CLEO 2016).

  17. S. J. Huang, M. T. Cheng, C. Y. Lin, C. Y. Li, and H. H. Lu, An Underwater Wireless Optical Communication System Based on Light Injection and Optoelectronic Feedback Techniques,” 270060, Optics & Photonics Taiwan, International Conference (OPTIC 2016).

  18. Z. Y. Yang, M. T. Cheng, C. Y. Lin, C. Y. Li, and H. H. Lu, A Bidirectional Fiber-Wireless and Fiber-IVLLC Integrated System Based on Polarization-Orthogonal Modulation Scheme,” 270058, Optics & Photonics Taiwan, International Conference (OPTIC 2016).

  19. X. Y. Lin, M. T. Cheng, C. Y. Lin, C. Y. Li, and H. H. Lu, A Bidirectional Fiber-Wireless and Fiber-IVLLC Convergence System with a Dual-Polarization Modulation Scheme and a MZM-OEO-Based BLS,” 270057, Optics & Photonics Taiwan, International Conference (OPTIC 2016).

  20. B. R. Chen, H. H. Lin, C. J. Wu, C. Y. Lin, C. Y. Li, and H. H. Lu,Fiber-Wireless and Fiber-IVLLC Convergences,” MB2.6, IEEE Photonics Conference (IPC 2016).

  21. W. S. Tsai, H. H. Lu, C. Y. Li, T. C. Lu, C. H. Liao, C. A. Chu, and P. C. Peng,A 50 m/40 Gbps 680-nm VCSEL-based FSO communication,” MB2.1, IEEE Photonics Conference (IPC 2016).

  22. W. S. Tsai, H. H. Lu, C. Y. Li, T. C. Lu, H. H. Lin, B. R. Chen, and C. J. Wu,A 50 m/320 Gbps DWDM FSO communication,” MB2.3, IEEE Photonics Conference (IPC 2016).

  23. B. R. Chen, H. H. Lin, C. J. Wu , C. Y. Lin, C. Y. Li and H. H. Lu,Fiber-Wireless and Fiber-IVLLC Convergences,” WA2-20, OptoElectronics and Communications Conference (OECC 2016).

  24. 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,” Tup-17, Microwave Photonics (MWP 2015).

  25. 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,” SO-08, Wireless and Optical Communication (WOCC 2015).

  26. 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 (invited), International Conference on Materials for Advanced Technologies (ICMAT 2015).

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

  28. 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).

  29. 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).

  30. 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).

  31. 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).

  32. 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).

  33. 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).

  34. 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).

  35. 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).

  36. 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).

  37. 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).

  38. 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)

  39. 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).

  40. 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).

  41. 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).

  42. 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) (Post-Deadline Paper).

  43. 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).

  44. 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).

  45. W. Y. Lin, P. Y. Wu, C. H. Lee, H. S. Su, C. Y. Li, and H. H. Lu, “Full-Duplex Radio-over-Fiber Transport Systems Based on Direct-Detection Scheme”, TuB1, OptoElectronics and Communications Conference (OECC 2009).

  46. W. Y. Lin, H. C. Peng, C. Y. Li, H. S. Su, K. H. Chang, and H. H. Lu, “Fiber-to-the-Home Radio-over-Fiber Transport Systems”, TuB4, OptoElectronics and Communications Conference (OECC 2009).

  47. C. Y. Li, H. C. Peng, W. Y. Lin, H. S. Su, S. H. Meng, and H. H. Lu, “Full-Duplex ROF Transport Systems Based on Broadband ASE Light Source and Nonlinear Distortions Suppression Scheme”, FN5, OptoElectronics and Communications Conference (OECC 2009).

  48. C. Y. Li, K. H. Chang, P. Y. Wu, S. J. Tzeng, and H. H. Lu, “Radio-on-Fiber Transport Systems Integration with 622 Mbps Baseband Transmission”, Sat-S29-03, Optics and Photonics/Taiwan’02 (OPT 2008).

  49. C. Y. Li, Y. C. Hsiao, K. H. Chang, S. J. Tzeng, and H. H. Lu, “Employing Only One Optical Sideband Modulation Technique in Full-Duplex Radio-on-Fiber Transport Systems”, Fri-P1-174, Optics and Photonics/Taiwan’02 (OPT 2008).

  50. W. Y. Lin, C. Y. Li, H. W. Hu, Ardhendu Sekhar Patra, S. J. Tzeng and H. H. Lu, “Full-Duplex Radio- over-Fiber Transport Systems Based on Two Modes Injection-Locked FP LD”, 第二屆電資科技應用與發展學術研討會.

  51. H. L. Ma, C. Y. Li, S. S. Hsu, H. W. Wu, Shah-Jye Tzeng and Hai-Han Lu, “A Full-Duplex Radio-over-Fiber Transport System Based on FP LD with OBPF as well as OC with FBG,” Optics and Photonics/Taiwan’06 (OPT 2007).

  52. H. C. Peng, C. J. Yen, C. Y. Li, Ardhendu Sekhar Patra, Shah-Jye Tzeng and Hai-Han Lu, “Radio-on-Hybrid WDM Transport Systems Based on Mutually Injection-Locked Fabry-Perot Laser Diodes,” Optics and Photonics/Taiwan’06 (OPT 2007).

  53. Y. C. Chi, W. I. Lin, C. W. Liao, C. Y. Li and H. H. Lu “A hybrid WDM transport system based on mutually injection-locked Fabry-Perot laser diodes,” Optics and Photonics/Taiwan’06 (OPT 2006).

  54. 顏永昌, 李忠益, 張中綺, 黃亘敬, ”具單位功因之返馳式電源轉換器的實作”, 中國(大陸)電工技術學會電力電子學會第十屆學術年會論文集, 20069.