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彭朋群

教授 兼 系主任

研究室:億光大樓 1132 室
電話:(02)2771-2171  分機 4671
傳真:(02)8773-3216
 

 

 

簡介

Peng-Chun Peng received a Ph.D. degree from the Institute of Electro-Optical Engineering, National Chiao Tung University, Taiwan, in 2005. He is a full professor and chairman of the Department of Electro-Optical Engineering, at the National Taipei University of Technology. His research interests include machine learning,  optical communication systems, wireless access networks, the Internet of Things, and sensors. He has authored more than 140 SCI-ranked papers and 9 granted US patents. His publications have been cited over 4000 times (H-index: 31). He was invited to the technical program committee of the Optical Fiber Communication Conference (OFC), OptoElectronics and Communications Conference (OECC), International Topical Meeting on Microwave Photonics (MWP), Asia Communications and Photonics Conference (ACP), and Wireless and Optical Communications Conference (WOCC). 

學歷

  • 國立陽明交通大學 博士 2005年

現職及經歷

  • 國立臺北科技大學 教授
  • 美國喬治亞理工學院 訪問學者
  • 國立臺北科技大學 電資學院副院長
  • 國立臺北科技大學 光電工程系系主任
  • 國立臺北科技大學 校友聯絡中心主任
  • 國立臺北科技大學 人工智慧科技學位學程主任
  • 臺灣臺北科技大學產官學研菁英協會 秘書長

授課課程

        深度學習與物聯網應用  人工智慧概論  深度學習

        光通訊  光纖感測  光電科技概論  高密度分波多工系統

        物理  物理實驗

研究領域

        物聯網, 光通訊,  無線通訊 (5G/6G), 機器學習

        光學工程, 光感測,  光電半導體, 液晶元件

研究計畫

  • 靈活功能設計於光纖無線接取網路之研究
  • B5G低軌衛星關鍵通訊模組產業人才與技術培育基地
  • 大範圍與高容量的光纖感測網路之研究
  • 風機海纜故障定位技術開發
  • 高可靠度的光纖無線接取網路技術研究
  • 電線路智慧故障定位系統設計
  • 多頻訊號調變技術於下世代無線通訊網路之研究
  • 高容量光通訊整合擷取網路系統(基頻/微波/毫米波/兆赫波/有線電視)之關鍵技術研究--子計畫:新穎微波光電模組於寬頻光纖接取網路之研究
  • 新穎液晶光電元件的開發與應用
  • 先進訊號處理技術在光通訊網路之研究-子計畫:慢光效應於訊號處理與通訊系統之應用
  • 光纖有線電視與光通訊產學聯盟
  • 有線電視傳輸信號技術改善及數位技術監理
  • 研究光電半導體元件的「慢光」與「快光」效應
  • 有線廣播電視數位化加值服務及光纖網路監控系統研究
  • 具有自我治癒與監測功能的微波光纖寬頻接取網路
  • 寬頻微波光學量測系統
  • 建構混合式可見光通訊/主動光纜傳輸系統

研究成果殊榮

  • 歷年所發表的研究著作已被引用超過4000次,含26本國際專業書籍引用,並獲邀擔任Optical Fiber Communication Conference (OFC), OptoElectronics and Communications Conference (OECC), International Topical Meeting on Microwave Photonics (MWP), Asia Communications and Photonics Conference (ACP), and Wireless and Optical Communications Conference (WOCC)等 IEEE國際研討會技術議程委員會委員與議程主席。
  • 獲選全球前 2% 頂尖科學家(World's Top 2% Scientists)。
  • 獲邀擔任加拿大自然科學與工程研究委員會 Natural Sciences and Engineering Research Council of Canada (NSERC)研究計畫審查委員、瑞士國家科學基金會 Swiss National Science Foundation研究計畫審查委員、國科會專題研究計畫審查委員、國家實驗研究院台灣半導體研究中心晶片製作審查委員、超過30種國際期刊論文審查委員。
  • 2015年國立台北科技大學『傑出研究獎』。
  • 2013年國立台北科技大學電資學院『學院傑出研究獎』。
  • 2013年國立台北科技大學Dr. Shechtman年輕學者研究獎。
  • 2013年國立台北科技大學電資學院年度『傑出研究獎』。
  • 2012年國立台北科技大學電資學院年度『傑出研究獎』。
  • 2010年國立台北科技大學電資學院年度『傑出研究獎』。
  • 2008年獲選Who's Who in the World (2009 Edition)。
  • 2006年與工研院前瞻半導體雷射光源研發團隊獲得中華民國光學工程學會『技術貢獻獎』。
  • 2005中華民國斐陶斐榮譽學會榮譽會員(國立交通大學分會)。
  • 2005中華民國光電學會博士班學生論文獎(博士論文)。
  • 2004台灣光電科技研討會學生論文獎。
  • 2003台灣光電科技研討會學生論文獎。
  • 2003聯發科技博士班獎學金(國內最高金額博士班獎學金)。
  • 2002台灣光電科技研討會學生論文獎。
  • 2001中國工程師學會優秀工程學生獎。

期刊論文(Selected Journal Paper)

  1. PC Peng*, KC Shiu, CH Chang, Y. C Shu, YT Lin, HH Lu, "Vertical-Cavity Surface-Emitting Laser for Tunable Microwave Photonic Filter," IEEE Journal of Selected Topics in Quantum Electronics, vol. 19 , pp.1701605-1701609, 2013.
  2. PC Peng*, G. Lin, HC Kuo, CE Yeh, JN Liu, CT Lin, J. Chen, S. Chi, JY Chi, SC Wang, “Dynamic Characteristics and Linewidth Enhancement Factor of Quantum Dot Vertical-Cavity Surface -Emitting Lasers,” IEEE Journal of Selected Topics in Quantum Electronics, vol. 15, pp. 844 - 849, 2009. 
  3. PC Peng*, KC Shiu, WY Lee, CH Chang, BL Lin, JJ Jhang, "Multi- Service Cable Television System Using a Single Wavelength," IEEE Photonics Journal, vol. 5, no.4, pp. 6601307, 2013. 
  4. HW Gu, CH Chang, YC Chen, PC Peng*, ST Kuo, HH Lu, CY Li, SS Yang, and JJJhang, “Hexagonal Mesh Architecturefor Large-Area Multipoint Fiber Sensor System,” IEEE Photonics Technology Letters, vol. 26, pp.1878-1881, 2014. 
  5. QC Huang, PC Peng*, SF Fu, WY Yang, JH Huang, and HH Yee, “Double Sideband With Optical Carrier Suppression Scheme for Broadcasting Transmission,” IEEE Photonics Technology Letters, vol. 26, pp. 1172 - 1175, 2014 
  6. PC Peng*, LH Yen, CH Chang , YC Chen, and JJ Jhang, " Hybrid wireline and wir eless transport system based on polarization modulator" IEEE Photonics Technology Letters, vol. 25, pp.1069-1072, 2013 
  7. PC Peng*, LH Yen, HH Lu, and CH Huang, “Hybrid Cable Television/Radio-over- Fiber Transport System Based on Polarization Modulation Technique,” IEEE Photonics Technology Letters, vol. 23, pp. 860 - 862, 2011. 
  8. PC Peng*, RL Lan, FM Wu, G. Lin, CT Lin, J. Chen, GR Lin, S. Chi, HC Kuo, and JY Chi, “Polarization Characteristics of Quantum-Dot Vertical-Cavity Surface-Emitting Laser with Light Injection,” IEEE Photonics Technology Letters, vol. 22, pp. 179 - 181, 2010. 
  9. PC Peng*, WR Peng, KM Feng, HY Chiou, JH Chen, HC Kuo, SC Wang, and S. Chi, “OCDMA light source using directly modulated Fabry-Perot Laser diode in an external injection scheme,” IEEE Photonics Technology Letters, vol. 18, no. 9, pp. 1103 - 1105, 2006. 
  10. PC Peng*, JH Lin, HY Tseng, and S. Chi, “Intensity and Wavelength Division Multiplexing FBG Sensor System using a Tunable Multipo r t Fib er Ring Laser,” IEEE Photonics Technology Letters, vol. 16, pp. 230 - 232, 2004. 
  11. PC Peng*, HY Tseng, and S. Chi, “Long-Distance FBG Sensor System using a Linear- Cavity Fiber Raman Laser Scheme,” IEEE Photonics Technology Letters, vol. 16, pp. 575 - 577, 2004. 
  12. PC Peng*, JH Lin, and S. Chi, “Generation of Wavelength-Tunable Optical Pulses Using a Linear- Cavity Fiber Laser Scheme with a Fabry-Perot Laser Diode,” IEEE Photonics Technology Letters, vol. 16, pp. 1023 - 1025, 2004. 
  13. PC Peng*, WR Peng, JH Lin, WP Lin, and S. Chi, “ Generation of wavelength-tunable optical pulses using EDFA as external-injection light source and amplifier for Fabry-Perot laser diode,” IEEE Photonics Technology Letters, vol. 16, pp. 2553 - 2555, 2004. 
  14. PC Peng*, HY Tseng , and S. Chi, “A Novel Fiber-Laser-Based Sensor Network with Self-Healing Function,” IEEE Photonics Technology Letters, vol. 15, pp. 275 - 277, 2003. 
  15. PC Peng*, HY Tseng, and S. Chi, “A Tunable Dual-W avel ength Erbium-Doped Fiber Ring Laser using a Self-Seeded Fabry-Perot Laser Diode,” IEEE Photonics Technology Letters, vol. 15, pp. 661 - 663, 2003. 
  16. PC Peng*, HY Tseng, and S. Chi , “ A Hybrid Star-Ring Architecture for Fiber Bragg Grating Sensor System,” IEEE Photonics Technology Letters, vol. 15, pp. 1270 - 1272, 2003. 
  17. PC Peng*, and KY Huang, “Fiber Bragg Grating Sensor System with Two - Level Ring Architecture,” IEEE Sensors Journal, vol. 9, pp. 309 - 313, 2009. 
  18. PC Peng*, HY Wang, CH Chang, HL Hu, WY Yang, and FK Wu, "DSBCS Modulation Scheme for Hybrid Wireless and Cable Television System" Optics Express, vol. 22, pp. 1135-1142, Jan. 2014 
  19. PC Peng*, FM Wu, WJ Jiang, RL Lan, CT Lin, JH Chen, PT Shih, GR Lin, S . Chi, “RF Phase Shifter using a Distributed Feedback Laser in Microwave Transport Systems,” Optics Express, vol. 17, pp. 7609 - 7614, 2009. 
  20. PC Peng*, CT Lin, HC Kuo, WK Tsai, JN Liu , S. Chi, SC Wang, G. Lin, HP Yang, KF Lin, and JY Chi, “T unable S low Ligh t Device using Quantum Dot Semiconductor Laser,” Optics Express, vol. 14, pp. 12880 - 12886, 2006. 
  21. PC Peng*, HC Kuo, WK Tsai, YH Chang, Gray Lin, CT Lin, HP Yang, KF Lin , HC Yu, JY Chi, S. Chi, and SC Wang, “Dynamic Characteristics of Long-Wavelength Quantum Dot Vertical-Cavity Surface-Emitting Lasers with Light Injection,” Optics Express, vol. 14, pp. 2944 - 2949 , 2006 . 
  22. PC Peng*, JB Wang, KY Huang, “Reliable Fiber Sensor System with Star-Ring-Bus Architecture,” Sensors, vol.10, pp. 4194 - 4205, 2010. 
  23. PC Peng* , KM Feng, CC Chang, HY Chiou, JH Chen, MF Huang, HC Chien, S. Chi, “Multiwavelength Fiber Laser using S-band Erbium-Doped Fiber Amplifier and Semiconductor Optical Amplifier,” Optics Communications, vol. 259, pp . 200 - 203 , 2006. 
  24. PC Peng*, KM Feng, WR Peng, HY Chiou, CC Chang, and S. Chi, “Long-Distance Fiber Grating Sensor System using a Fiber Ring Laser with EDWA and SOA,” Optics Communications, vol. 252, pp. 127 - 131, 20 05. 
  25. PC Peng*, CH C hang, HH Lu, YT Lin, JW Sun, CH Jiang, “Novel optical add-drop multiplexer for wavelength-division-multiplexing networks,” Optics Communications, vol. 285, pp. 3093 -3099, 2012. 
  26. PC Peng* , HY Wang, RL Lan, RY Peng, “Microwave transport systems that use semiconductor laser as radio-frequency amplifier,” Optics Communications, vol. 285, pp. 2433-2438, 2012. 
  27. PC Peng* , FK Wu, YC Chen, and TL Chang, "Distributed feedback laser for tunable microwave photonic filter" Laser Physics Letters, vol. 10 ,no. 7, 075109, 2013. 
  28. PC Peng*, KC Shiu , WC Liu, KJ Chen, HH Lu, “A Fiber-Optical Cable Television System Using Reflective Semiconductor Optical Amplifier,” Laser Physics, vol. 23 , no. 2, 025106, 2013. 
  29. PC Peng*, FK Wu, WC Kao, J. Chen , CT Lin, and S. Chi, “Fast and Slow Light Property Improvement in Erbium-Doped Amplifier,” Laser Physics, vol. 23 , no. 1, 015104, 2013. 
  30. PC Peng*, HL Hu, and JB Wang , “Improvement of Triple -wavelength Erb ium-doped Fib er Laser using Fabry-Perot Laser Diode,” Laser Physics, vol. 23 , no. 2, 025105, 2013. 
  31. PC Peng*, JF Chen, HH Lu, and YT Lin, "Wavelength-tunable optical pulse generation from a fiber ring laser with a reflective semiconductor optical amplifier," Laser Physics, vol. 21, pp. 509-511, 2011. 
  32. PC Peng*, AL Tsou, HH Yee, HY Wang, and HH Lu, " A stable multiwavelength SOA -based fiber ring laser with ultra-narrow wavelength spacing," Laser Physics, vol. 22 , pp. 268-272, 2012. 
  33. PC Peng*, HY Wang, RL Lan, HH Lu, GR Lin, G. Lin, JY Chi, “Wavelength Switching Based on Quantum Dot Vertical CavitySurface Emitting Laser,” Laser Physics, vol. 22 , no. 9, 2012. 
  34. PC Peng*, YC Chen, CH Jiang, HH Lu, “Fiber Laser Based Sensor System with Bus Ring Architecture,” Laser Physics, vol. 22, no. 9, 2012. 
  35. PC Peng*, JF Chen, and JW Sun, “Novel Ring Protection Architecture for Fiber Sensor System,” Japanese Journal of Applied Physics, vol . 50, no. 8, pp. 082501-082501- 4 , 2011. 
  36. PC Peng*, CE Yeh, HC Kuo, R. Xuan, CT Lin, G. Lin, S. Chi, and JY Chi, “Relative Intensity Noise Characteristics of Long-Wavelength Quantum Dot Vertical-Cavity Surface -Emitting Lasers,” Japanese Journal of Applied Physics, vol. 47, pp. 6357 - 6358, 2008. 
  37. PC Peng*, and S. Chi, “Over 31 nm Wavelength-Switched Pulse Generation from a Fiber Ring Laser with a Fabry-Perot Semiconductor Modulator,” Japanese Journal of Applied Physics, vol. 43, pp. 4236 - 4237, 2004. 
  38. PC Peng*, WP Lin, and S. Chi, “Star-Bus-Ring Architecture for Fiber Bragg Grating Sensors,” Japanese Journal of Applied Physics, vol. 43, pp. 7072 - 7076, 2004. 
  39. PC Peng*, WR Peng, WP Lin, and S. Chi, “Dynamic Encoder and Decoder Based on Fiber Bragg Gratings for Optical Security System,” Japanese Journal of Applied Physic, vol. 43 , pp. 8101 - 8102, 2004. 
  40. PC Peng*, WY Lee, SS Wu, HL Hu, “Multiwavelength Fiber Laser for Fiber Link Monitoring System” Optics & Laser Technology, vol. 5 1, pp . 62-66, 20 13 . 
  41. PC Peng* , KM Feng, HY Chiou, WR Peng, J. Chen, HC Kuo, SC Wang, and S. Chi “Reliable Architecture for High-Capacity Fiber-Radio Systems,” Optical Fiber Technology, vol. 13, pp. 236 - 239 , 2007. 
  42. PC Peng*, and S. Chi, “Tunable Single- and Dual- Wavelength Fiber Ring Lasers Using a Er-Yb Doped Waveguide Amplifier, ” Optical Engineering, vol. 44, pp . 060507, 2005. 
  43. PC Peng*, and S. Chi, “Wavelength-tunable optical short pulse generation with constant repetition frequency and pulsewidth,” Optical Engineering, vol. 44, pp. 064205, 2005. 
  44. PC Peng* , HY Cheng, and S. Chi, “Wavelength-Tunable Add-Drop Multiplexers Using Fiber Fabry-Perot Tunable Filters for Bidirectional Wavelength Division Multiplexing Networks,” Optical Engineering, vol. 43, pp. 2422 - 2425, 2004. 
  45. PC Peng*, FM Wu, CT Lin, JH Chen, PT Shih, WC Kao, WJ Jiang, HC Kuo, S. Chi, “40 GHz Phase Shifter based on Semiconductor Laser,” Electronics Letters , vol. 44, pp. 520 - 521, 2008. 
  46. PC P eng*, CT Lin, WJ Ji ang, J. Chen, FM Wu, PT Shih and S. Chi, “Improvement of transmission in fibre wireless system using semiconductor laser amplifier,” Electronics Letters, vol . 44, pp. 298 – 299 , 2008. 
  47. PC Peng* , CT Lin, HC Kuo, G. Lin, WK Tsai, HP Yang, KF Lin, JY Chi, S. Chi, and SC Wang, “Tunable Optical Group Delay in Quantum Dot Vertical-Cavity Surface-Emitting Laser at 10 GHz, ” Electronics Letters, vol. 42, pp. 33 - 34, 2006. 
  48. PC Peng, YH Chang, HC Kuo, WK Tsai, G. Lin, CT Lin, HC Yu, HP Yang , RS Hsiao, KF Lin, JY Chi, S. Chi, and SC Wang, “1.3 μm Quantum Dot Vertical Cavity Surface Emitting Laser with External Light Injection,” Electronics Letters, vol. 41, pp . 1222 - 1223, 2005. 
  49. PC Peng*, HY Tseng, and S. Chi, “A Self-Healing Fiber Grating Sensor System using a Tunable Multiport Fiber Laser Scheme for Intensity and Wavelength Division Multiplexing,” Electronics Letters, vol. 38, pp. 1510 - 1512, 2002. 
  50. PC Peng*, and S. Chi, “Tunable Dual-Wa velength Linear-Cavity Fiber Laser by Using an External Injection-Seeding Scheme,” Microwave and Optical Technology Letters, vol. 40, pp. 406 - 408, 2004. 
  51. PC Peng*, and S. Chi, “A Reliable Architecture for FBG Sensor Systems, ” Microwave and Optical Technology Letters, vol. 39, pp. 479 - 482, 2003. 
  52. PC Peng*, HY Tseng, and S. Chi, “A Simple Fiber Bragg Grating Sensor System Based on a Linear- Cavity Fiber Laser, ” Microwave and Optical Technology Letters, vol. 37, pp. 15 - 17, 2003. 
  53. PC Peng*, HY Tseng, and S. Chi, “Fiber Ring Laser Based Fiber Grating Sensor System Using Self-Healing Ring Architecture,” Microwave and Optical Technology Letters, vol. 35, pp. 441 - 444, 2002. 
  54. PC Peng*, HY Tseng, and S. Chi, “High-Resolution Fiber Bragg Grating Sensor System using Linear-Cavity Fiber Laser Scheme,” Microwave and Optical Technology Letters, vol. 34, pp. 323 - 325, 2002. 
  55. ST Kuo, PC Peng, JW Sun, and MS Kao, “A Delta-Star Based Multipoint Fiber Bragg Gra ting Sensor Network,” IEEE Sensors Journal, vol. 11, pp. 875-881, 2011. 
  56. MC Chan, PC Peng, Y. Lai, S. Chi, and CK Sun, “Continuously Tunable Large- Dynamic-Range Radio -Frequency Phase Shifter Via a Soliton Self-Frequency-Shifted Source and a Dispersive Fiber,” IEEE Photonics Technology Letters, vol. 21, pp. 313 - 315, 2009. 
  57. YH Chang, PC Peng, WK Tsai , G. Lin , FI Lai, RS Hsiao, HP Yang, HC Yu, KF Lin, JY Chi, SC Wang, and HC Kuo, “Singlemode Monolithic Quantum-Dot VCSEL in 1.3 um with Side-mode Suppression Ratio over 30dB,” IEEE Photonics Technology Letters , vol. 18, pp. 847 - 849, 2006. 
  58. WR Peng, PC Peng, YT Hsueh, KM Feng, and S. Chi, “Performance Comparisons of External Modulated Hybrid Analog/Digital Signals in Electrical and Optical Domains,” IEEE Photonics Technology Letters, vol. 17, pp. 2496 - 2498, 2005. 
  59. WR Peng, PC Peng, WP Lin, KC Hsu, YC Lai, and S. Chi, “A Cost-Effective Fast Frequency -Hopped Code- Division Multiple Access Light Source Using Self -Seeded Fabry-Perot Lase r with Fiber Bragg Grating Array,” IEEE Photonics Technology Letters, vol. 16, pp. 2550 - 2552, 2004. 
  60. YC Chi, PC Peng, GR Lin, “Clock- Free RZ-BPSK Data Generation Using Self-Starting Optoelectronic Oscillator,” IEEE/OSA Journal of Lightwave Technology, vol. 29, pp. 1702-1707, 2011. 
  61. CH Chang, PC Peng, HH Lu, CL Shih, and HW Chen, "Simplified radio -over-fiber transport systems with a low-cost multiband light source," Optics Letters, vol. 35, pp.4021-4023, 2010. 
  62. FM Wu, PC Peng*, J. Chen, CT Lin, GR Lin, and S. Chi, “ Electrically and continuously tunable optical delay line based on a semiconductor laser,” Japanese Journal of Applied Physics, vol. 49, 074102, 2010. 
  63. CT Lin, PC Peng, PT Shih, J. Chen, and S. Chi, “Distributed Feedback Laser in External Light Injection Scheme for Tunable Slow Light,” Japanese Journal of Applied Physics, vol. 47, pp. 4600 - 4601, 2008. 
  64. FM Wu, PC Peng* , J. Chen, CT Lin, WC Kao, "SOA-based Fiber Ring Las er Use in a Photonic Radio -Frequency Phase Shifter," Laser Physics, vol. 21, pp. 522-525, 2011. 
  65. ST Kuo, PC Peng*, MS Kao, HH Lu, and JF Chen, “Tunable erbium- doped fiber ring laser with signal -averaging function for fiber-optic sensing applications,” Laser Physics, vol. 21, pp. 188-190, 2011. 
  66. SL Tsao and PC Peng, “Design and Simulation of a 2×2N SOI Optical Power Splitter,” Microwave and Optical Technology Letters, vol.32, pp. 307 - 310, 2002. 
  67. SL Tsao and PC Peng, “An SOI Michelson Interferometer Sensor with Waveguide Bragg Reflective Gratings for Temperature Monitoring,” Microwave and Optical Technology Letters, vol.30 , pp. 321 - 322, 2001. 
  68. CY Wu, KM Feng, PC Peng, and CY Lin, “Three-Dimensional Mesh-Based Multipoint Sensing System with Self-Healing Functionality,” IEEE Photonics Technology Letters, vol. 22, pp. 565 - 567, 2010. 
  69. CT Lin, J. Chen, PC Peng, CF Peng , WR Peng, BS Chiou, and S. Chi, “Hybrid Optica l Access Network Integrating Fiber- to-the-home and Radio- over-fi ber Systems,” IEEE Photonics Technology Letters, vol. 19, pp. 610 - 612, 2007. 
  70. CT Lin, WR Peng, PC Peng, J . Chen, CF Peng, BS Chiou, and S. Chi, “Simultaneous Generation of Baseband and Radio Signals Using Only One Single-Electrode Mach–Zehnder Modulator With Enhanced Linearity,” IEEE Photonics Technology Letters, vol. 18, pp. 2481 - 2483, 2006. 
  71. WY Lin, CH Chang, PC Peng, HH Lu , and CH Huang, “Direct CATV modulation and phase remodulated radio-over-fiber transport system,” Optics Express, vol. 18, pp. 10301 - 10307 , 2010. 
  72. CC Lin, HC Kuo, PC Peng, and GR Lin , “Chirp and error rate analyses of an optical-injection gain-switching VCSEL based all-optical NRZ-to-PRZ converter,” Optics Express, vol. 16, pp. 4838 - 4847, 2008. 
  73. HH Lu, CH Chang , PC Peng, HS Su. and HW Hu, “A Radio over GI-POF Transport System,” IEEE/OSA Journal of Lightwave Technology, vol. 28 , pp. 1917 - 1921 , 2010. 
  74. C H Chang, WC Liu, PC Peng, HH Lu, PY W u, and JB Wang, "Hybrid cable tele vision and orthogonal-frequency-division-multiplexing transport system basing on single wavelength polarization and amplitude remodulation schemes," Optics Letters, vol . 36, pp. 1716-1718, 2011. 
  75. CS Chou, RK Lee, PC Peng, HC Kuo , G. Lin, HP Yang and JY Chi, “A Simple Model for Cavity Enhanced Slow Lights in Vertical Cavity Surface Emission Lasers ,” Journal of Optics: A Pure and Applied Optics, vol. 10, 044016, 2008. 
  76. ST Kuo , MS Kao, and PC Peng, “A Hybrid Star-Ring-Bus Architecture for WDM Metropolitan-Regional Access Networks,” Microwave and Optical Technology Letters, vol. 53, pp. 102- 108, 2011. 
  77. Lin, PT Shih, J. Chen, PC Peng, SP Dai, WJ Jiang, WQ Xue, and S. Chi, “Cost- Effective Multiservices Hybrid Access Networks With no Optical Filter at Remote Nodes,” IEEE Photonics Technology Letters, vol. 20, pp . 812 - 814, 2008. 
  78. VKS Hsiao, Z. Li, Z. Chen, PC Peng, J. Tang , “Optically co ntrollable side-polished fiber attenuat or with photoresponsive liquid crystal overlay,” Optics Express, vol. 17, pp. 19988 - 19995, 2009. 
  79. WY Lin, CH Chang, HH Lu, PC Peng, YP Lin, CY Chen, CY Li, “A hybrid CATV /OFDM long-reach passive optical network architecture,” Optics Express, vol. 20, pp. 4219-4224, 2012. 
  80. YC Chi, YC Li, HY Wang, PC Peng, HH Lu, and GR Lin, "Optical 16 -QAM-52- OFDM transmission at 4 Gbit/s by directly modulating a coherently injection-locked colorless laser diode," Optics Express, vol. 20, pp. 20071-20077, 2012. 
  81. CH Chang , HS Su, HH Lu , PC Peng, and HW Hu, “Integrating Fiber to the Home and POF In-Door Routing CATV Transport System,” IEEE/OSA Journal of Lightwave Technology, vol. 28, pp. 1864 - 1869, 2010 . 
  82. CT Lin, J. Chen, SP Dai, PC Peng, and S. Chi, “Impact of Nonlinear Transfer Function and Imperfect Splitting Ratio of MZM on Optical Up-Conversion Employing Double Sideband With Carrier Suppression Modulation,” IEEE/OSA Journal of Lightwave Technology, vol . 26, pp. 2449 - 2459, 2008. 
  83. CC Lin, YC Chi, HC Kuo, PC Peng, CJ Chang-Hasnain, and Gong-Ru Lin , "Beyond-Bandwidth Electrical Pulse Modulation of a TO -Can Packaged VCSEL for 10 Gbit/s Injection- Locked NRZ-to-RZ Transmission," IEEE/OSA Journal of Lightwave Technology, vol. 29, pp. 830-841, 2011. 
  84. JM Lin, WJ Ho, YP Chang , PC Peng, and HH Lu, "Demonstration of Optical Frequency Quadrupling Combined with Direct/External Signal Double-Sideband Suppressed-Carrier Modulation" Optics Communications, vol. 317, pp. 34-39, Apr. 2014. 
  85. JM Lin, WJ Ho, YP Chang, PC Peng, and HH Lu, “Signal Up-Conversion for a Radio-Over-Fiber System with Modulation Types Based on a Frequency Quadrupling Technique,” Microwave and Optical Technology Letters, vol.56, pp.1603 -1610, 2014. 
  86. CY Lin, HH Lu, CY Li, PY Wu, PC Peng, TW Jhang, and CY Lin, “Employing injection-locked FP LDs to setup a hybrid CATV/MW/MMW WDM lightwave transmission system, ” Optics Letters, vol. 39, pp. 3931 -3934, 2014. 
  87. KM Feng, CY Wu, CY Lin , JH Yan, PC Peng, “Fiber Bragg Gr ating Based Three-Dimensional Multipoint Ring-Mesh Sensing System with Robust Self-healing Function,” IEEE Journal of Selected Topics in Quantum Electronics, vol. 18, pp. 1613 - 1620, 2012. 
  88. CT Lin, PT Shih, J. Chen, WQ Xue, PC Peng, S. Chi, “Optical Millimeter-Wave Signal Generation Using Frequency Quadrupling Technique and No Optical Filtering,” IEEE Photonics Technology Letters, vol. 20, pp. 1027 - 1029, 2008. 
  89. CT Lin , SP Dai, J. Chen, PT Shih, PC Peng, S. Chi, “A Novel Direct Detection Microwave Photonic Vector Modulation Scheme for Radio-Over-Fiber System,” IEEE Photonics Technology Letters, vol. 20, pp. 1106 - 1108, 2008. 
  90. CT Lin, WJ Jiang, J. Chen, PT Shih, PC Peng , EZ Wong, and S. Chi, “Novel Optical Vector Signal Generation With Carrier Suppression and Frequency Multiplication Based on a Single-Electrode Mach- Zehnder Modulator,” IEEE Photonics Technology Letters, vol . 20, pp. 2060 - 2062, 2008. 
  91. HC Peng, HS S u, HH Lu, CY Li, PC Peng, SH Wu, and CH Cha ng, "Hybrid CATV/16-QAM OFDM in-building networks over SMF and GI-POF transport," Optics Express, vol. 19, pp. 9575 -9581, 2011. 
  92. WJ Jiang, CT Lin, PT Shih, J . Chen, PC Peng, and S. Chi, “A Full duplex radio-over-fiber link with Multi-level OFDM signal via a single-electrode MZM and wavelength reuse with a RSOA,” Optics Express, vol. 18, pp. 2710 - 2718, 2010. 
  93. CT Lin, PT Shih, WJ Jiang, J. Chen, PC Peng, S. Chi, “A continuously tunable and filterless optical millimeter-wave generation via frequency octupling,” Optics Express, vol. 17 , pp. 19749 - 19756, 2009. 
  94. HS Su, CY Li, HH Lu, CH Chang, PC Peng, PY Wu, and HW Chen, “RoF Transport Systems with OSNR Enhanced Multi-Band Optical Carrier Generator”, Optics Express , vol. 19, pp. 18516-18522, 2011. 
  95. CT Lin, YM Lin, JH Chen, SP Dai, PT Shih, PC Peng, and S. Chi, “Optical direct-detection OFDM signal generation for radio- over -fiber link using frequency doubling scheme with carrier suppression,” Optics Express, vo l. 16, pp. 6056 - 6063, 2008. 
  96. PT Shih, J. Chen, CT Lin, WJ Jiang, HS Huang, PC Peng, S. Chi, “Optical Millimeter- Wave Signal Generation Via Frequency 12-Tupling, ” IEEE/OSA Journal of Lightwave Technology, vol. 28, pp. 71 - 78, 2009. 
  97. CT Lin, PT Shih, J. Chen, WJ Jiang, SP Dai, PC Peng , YL Ho, and S. Chi, “Optical Millimeter-Wave Up-Conversion Employing Frequency Quadrupling Without Optical Filtering,” IEEE Transactions on Microwave Theory and Techniques, vol. 57, pp. 2084 - 2092 , 2009. 
  98. PT Shih, CT Lin, WJ Jiang, JH Chen, HS Huang, YH Chen, PC Peng, and S. Chi, “WDM up-conversion employing frequency quadrupling in optical modulator,” Optics Express, vol. 17 , pp. 1726 - 1733, 2009 . 
  99. J. Chen, CT Lin , PT Shih, WJ Jiang, SP Dai, YM Lin, PC Peng, and S. Chi, “Generation of optical millimeter-wave signals and vector formats using an integrated optical I/Q modulator [ Invited],” Journal of Optical Networking, vol. 8, pp. 188 - 200, 2009.
 
 

專利

  1. “Optical access system for dual service network,” US Patent No. 8428471.
  2. “Optical modulating device with frequency multiplying technique for electrical signals” US Patent No. 8184988.
  3. “Optical modulation device” US Patent No.8301034.
  4. “Modulation device for generating optical signal with quadruple frequency and method thereof” US Patent No. 8059968.
  5. “Adjustable Optical Signal Delay Module and Method Thereof” US Patent No. 805933.
  6. “Self-healing fiber Bragg grating sensor system,” US Patent No. 7043103.
  7. “Using Intensity and Wavelength Division Multiplexing for Fiber Bragg Grating Sensor System,” US Patent No. 6879742.
  8. “Fiber Bragg grating sensor system,” US Patent No. 6647160.
  9. “Silicon-on-insulator optical waveguide Michelson interferometer sensor for temperature monitorin g,” US Patent No. 6603559.