專任教師
 
首頁系所成員 → 林俊廷 教授
林俊廷
林俊廷
教授
組   別:
系統組
辦 公 室:
R326
電   話:
06-3032121
信   箱:
jinting@nycu.edu.tw
網   站:
https://sites.google.com/site/nctummwavelab/
研究 主題:
無線通訊技術, 電磁理論, 射頻電路設計
  • 個人簡歷
    林俊廷教授分別於1997年和2001年在國立清華大學獲得了材料科學工程學系的學士學位和碩士學位。他於2009年被委任為國立陽明交通大學光子系統研究所的助理教授,並於2015年獲得終身職位。他的研究文章截至2023年8月已被引用3785次,其H指數為32(資料來源:Google Scholar)。
    他的研究興趣包括了衛星光通信、微波光子學、微波/毫米波/太赫茲寬頻光學/無線系統、下一代6G無線通信、搭載數位信號處理(DSP)的光學/MIMO技術的無線系統。

  • 經歷與榮譽

    學歷

    • 2003.09 ~ 2007.06    國立交通大學, 光電工程學系,   碩士學位           
    • 1999.09 ~ 2001.06    國立清華大學,    材料科學工程研究所,   碩士學位             
    • 1993.09 ~ 1997.06    國立清華大學,    材料科學工程學系,  學士學位

    職業經歷

    • 2009/08 – 2012/07, 助理教授, 國立交通大學光子系統研究所, 國立交通大學
    • 2012/08 – 2015/07, 副教授, 國立交通大學光子系統研究所, 國立交通大學
    • 2012/08 – 2015/07, 副教授, 國立交通大學光子系統研究所, 國立交通大學
    • 2015/08 – 2023/07, 教授, 國立交通大學光子系統研究所, 國立陽明交通大學
    • 2023/08 – 現在, 教授, 電信工程研究所, 國立陽明交通大學

    項目負責人

    • 次世代B5G/6G無線通訊應用雷射光通訊於立方衛星對地及星間鏈結關鍵技術研究(2/3) (工程司整合型計畫) (112-2218-E-A49-011-, TW 7,000,000 for 1 years, 2023/07/01~2024/06/30)
    • 次世代B5G/6G無線通訊應用雷射光通訊於立方衛星對地及星間鏈結關鍵技術研究(1/3) (工程司整合型計畫) (111-2224-E-A49-001-, TW 35,000,000 for 1 years, 2022/11/01~2023/06/30)
    • 衛星自由空間雷射光通訊系統整合之高速傳輸研究-總計畫衛星自由空間雷射光通訊系統整合之高速傳輸研究-子計畫數位訊號處理之非線性補償技術應用於光學地面站及低軌衛星工程體之10Gbps傳輸研究(2/3) (自然司整合型計畫)(112-2119-M-A49-008-, TW 1,500,000 for 1 years, 2023/05/01~2024/04/31)
    • 衛星自由空間雷射光通訊系統整合之高速傳輸研究-總計畫衛星自由空間雷射光通訊系統整合之高速傳輸研究-子計畫數位訊號處理之非線性補償技術應用於光學地面站及低軌衛星工程體之10Gbps傳輸研究(1/3) (自然司整合型計畫)(111-2119-M-A49-006-, TW 7,120,000 for 1 years, 2022/05/01~2023/04/31)
    • 雷射光通訊技術在福衛衛星通訊應用可行性評估與開發之研究-福衛衛星以雷射技術進行光通訊數位訊號處理與高速傳輸可行性之研究(自然司整合型計畫)(110-2119-M-009-002-, TW 3,500,000 for 1 years, 2021/05/01~2022/04/31)
    • 結構波與微波光電科技之未來通訊應用--新穎光與無線整合空間多工多模態調變技術於下世代5G與6G微毫米波/兆赫波無線通訊系統研究(子計畫四)(MOST 109-2221-E-009-154 MY3, TW 4,092,000 for 3 years, 2020/8/1~2023/7/31)
    • 前瞻微波光電與矽基光電整合科技應用之研究-子計畫四:高頻功率偵測器降頻產生高頻譜效率向量訊號於同調光載毫米波及兆赫波通訊系統之研究(MOST106-2221-E-009-104-MY3, TW 4,507,000 for 3 years, 2017/8/1~2020/7/31)
    • Investigation of Optical MIMO and 60-GHz Wireless MIMO System Integration (科技部)
    • 整合光纖多工與60GHz無線多工之多天線輸出多天線輸入系統研究(MOST103-2222-E-009-033-MY3, TW 3,701,000 for 3 years, 2014/8/1~2017/7/31)
    • 光載無線訊號整合通訊系統人才發展計畫(學海築夢計畫)(10300070001,TW 514,487 for 1 year, 2014/7/1~2015/9/30)
    • Funder: National Science Council (國科會)
      • Performance Improvement of Millimeter Wave over Fiber System by Using Beating Interference Compensation Techniques
      • 新穎光纖載毫米波系統與技術之整合研究--子計畫四:利用拍擊干擾補償技術提升毫米波光纖載微波傳輸距離及速率
      • (NSC 102-2221-E-009 -154 -MY3, TW 3,739,000 for 3 years, 2013/8/1~2016/7/31)
    • Funder: National Science Council (國科會)
      • Multiple-Input and Multiple-Output technology in 60 GHz Radio-over-Fiber System
      • 多天線輸入多天線輸出技術應用於60GHz光載微波無線訊號系統 (優秀年輕學者研究計畫)
      • (NSC100-2628-E-009-019-MY3, TW 3,039,000 for 3 years, 2011/8/1~2014/7/31)
    • Funder: National Science Council (國科會)
      • Performance Improvement of Millimeter and Terahertz Wave Radio-over-Fiber System Using Digital Signal Processing
      • 新世代光纖載微波系統與技術之整合研究-子計畫四:利用數位訊號處理技術改善毫米波及兆赫波上的光載微波無線訊號之效能
      • (NSC 99-2221-E-009-047-MY3, TW 3,751,000 for 3 years, 2010/8/1~2013/7/31)
    • Funder: 交大五年五百億年輕教授增能計畫
      • Long-Reach Millimeter/THz Wave Radio-over-Fiber system Employing Laser Phase Noise Mitigation
      • 雷射相位雜訊抑制於長距離毫米波/兆赫波光載微波無線系統之研究
      • (TW 400,000 for 1 year, 2012/4/1~2012/12/31)
    • Funder: 交大五年五百億年輕教授增能計畫
      • Long-Reach Millimeter/THz Wave Radio-over-Fiber system Employing Laser Phase Noise Mitigation II
      • 雷射相位雜訊抑制於長距離毫米波/兆赫波光載微波無線系統之研究 II
      • (TW 400,000 for 1 year, 2013/4/1~2013/12/31)
    • Funder: 交大五年五百億年輕教授增能計畫
      • Investigation of Optical MIMO and 60-GHz Wireless MIMO System
      • 光纖多工與60GHz無線多工之多天線輸出多天線輸入系統整合
      • (TW 500,000 for 1 year, 2013/4/1~2013/12/31)
    • Funder: National Science Council (國科會, 飛鷹計畫, For student intern in Corning Inc.)
      • Multiple Input Multiple Output in 60 GHz RoF system wireless transmission
      • 60-GHz光載微波無線訊號系統及多天線系統之整合
      • (NSC 99-2911-I-009-069, TW 780,000 for 1 year, 2010/12/1~2011/11/30)
    • Funder: National Science Council (國科會, 新人計畫)
      • Ultra Broadband 60-GHz OFDM Wireless/Optical System Using Frequency Multiplication
      • 利用光倍頻技術實現60GHz超寬頻正交分頻多工無線與光纖整合系統
      • (NSC 98-2218-E-009-021, TW 890,000 for 1 year, 2009/11/1~2010/10/31)
    • Funder: Ministry of Education (教育部, 學海築夢計畫)
      • Ultra-High Data-Rate 60-GHz Optical/Wireless System
      • (10100070001, TW 842,823 for 1 year, 2012/6/1~2013/5/30)

    項目負責人(工業-學術項目)

    • Funder: 財團法人國家實驗研究院國家太空中心
      • 衛星太空雷射光通訊研究
      • (NTD 9,800,000 for 1 year 4 months, 2023/06/01~2024/09/30)
    • Funder: 財團法人國家實驗研究院國家太空中心
      • NSPO-P-110246-衛星太空雷射光通訊研究
      • (NTD 7,760,000 for 2 years, 2021/09/01~2024/02/01)
    • Funder: 財團法人國家實驗研究院國家太空中心
      • 衛星雷射光通訊可行性研究
      • (NTD 295,000 for 4 month, 2019/09/01~2020/12/31)
    • Funder:成大研究發展基金會
      • 單波高速低採樣率oDSP終端技術研究
      • (NTD 4,182,639 for 1 years, 2016/12/1~2018/1/31)
    • Funder:成大研究發展基金會
      • 單波高速低採樣率oDSP終端技術研究
      • (NTD 75,000 for 1 years, 2016/12/1~2018/1/31)
    • Funder: Corning Incorporated
      • 60 GHz Radio-over-Fiber System (IV)
      • (US 225,000 for 3 years, 2015/1/1~2017/12/31)
    • Funder: Corning Incorporated
      • 60 GHz Radio-over-Fiber System (III)
      • (US 225,000 for 3 years, 2012/1/1~2014/12/31)
    • Funder: Corning Incorporated
      • 60 GHz Radio-over-Fiber System (II)
      • (US 50,000 for 2 years, 2010/1/1~2011/12/31)
    • Funder: Industrial Technology Research Institute (工研院), Taiwan     
      • High pulse energy Ultrafast passive mode locking Yb doped fiber laser
      • 高脈衝能量超快被動鎖模摻億光纖雷射
      • (TW 500,000 for one year, 2011/3/1~2011/12/31)

  • 研究主題
    • 衛星光通信
      • 低地球軌道(LEO)到地面的光通信
      • 地球靜止軌道(GEO)到地面的光通信
      • LEO到LEO的衛星間光通信
      • 具有LEO跟踪的光學地面站
    • 5G/B5G/6G無線通信
    • 微波光子學
      • 使用光學倍頻器在毫米波/亞太赫茲/太赫茲區域的光子向量信號的探測
      • 在60/120 GHz頻段實現大於10Gb/s的寬頻無線光纖系統
      • 使用光學倍頻器(最多24倍)的太赫茲和次太赫茲技術
    • 基於DSP的光通信
      • 用於長距離和接入通信的光OFDM系統
      • 用於長距離通信的光相干系統
      • 通過數字信號處理實現線性和非線性均衡器、前向錯誤更正、色散補償、極化模擬色散補償和信號預失真,用於光電轉換到光通信系統的非線性失真。
    • 使用基於慢/快光裝置的光子技術的電性毫米波濾波器(>60 GHz)
    • 整合光纖到家(FTTH)和寬頻無線系統的混合接入網絡

  • 期刊論文
    • Y. J. Huang, G. T. Lin, P. H. Ting , C. C. Wei , S. Chi, and C. T. Lin*, “Analog Mobile Fronthaul Supporting 128 RF Chain With Nonlinear Compensator for B5G and 6G Ma-MIMO Beamforming,” IEEE/OSA Journal of Lightwave Technology, vol. 40, No.20, pp. 6867-6874, Oct. 15 2022.
    • C. C. Wei, Z. X. Xie, P. H. Ting , Z. W. Huang , and C. T. Lin*, “3×3 MIMO 60-GHz OFDM-RoF System With Long-Distance Wireless Transmission Enabled by MIMO Volterra Filtering,” IEEE/OSA Journal of Lightwave Technology, vol. 40, No.20, pp. 6860-6866, Oct. 15 2022.
    • P. H. Wu, Y. P. Lan, C. L. Chou, C. T. Lin*, "Fast Infrared Small Target Detection by Using Hadamard Product for Spatial-Temporal Matrices", IEEE Access, vol.10, pp.116830-116843, 2022.
    • P. H. Ting, S. H. Yu, Z. W. Huang, C. C. Wei, S. Chi, C. T. Lin*,” Fronthaul Optical Links Using Sub-Nyquist Sampling Rate ADC for B5G/6G Sub-THz Ma-MIMO Beamforming,” IEEE Access, volume 10, pp. 236-243, 2022.
    • P. Y. Huang, P. H. Ting, Y. J. Huang, C. C. Wei, C. T. Lin*, “Mitigation of Optical Carrier Power Fading in 3× 3 MIMO V-Band Direct-Detection OFDM RoFMF System,” IEEE Photonics Technology Letters, vol. 33, No. 22, pp. 1246-1249, 2021.
    • T. H. Hsieh, C. L. Chou, Y. P. Lan, P. H. Ting, C. T. Lin*, “Fast and robust infrared image small target detection based on the convolution of layered gradient kernel,” IEEE Access, vol. 9, pp. 94889-94900, 2021.
    • C. H. Tseng, C. T, Lin, and S. K. Hwang*, “V- and W-band Microwave Generation and Modulation Using Optically Injected Semiconductor Lasers at Period-One Nonlinear Dynamics,” Optics Letters, vol. 45, No.24, pp. 6819-6822, Dec. 2020.
    • C. T. Tsai, C. C. Li, C. W. Chen, Y. C. Chi, C. T. Lin, S. Chi, G. R. Lin*, “Incoherent Laser Heterodyned Long-Reach 60-GHz MMWoF Link with Volterra Filtered 16-QAM OFDM beyond 13 Gbps,” IEEE Journal of Selected Topics in Quantum Electronics Letters, vol. 27, No. 2, pp. 7600211, MARCH/APRIL 2021.
    • W. H. Chen, C. T. Lin*, C. C. Wei, and S. Chi, “58.74-Gbps 2x2 MIMO 60-GHz Optical/Wireless System with Simple Power-Detector Down-Conversion,” IEEE Photonics Technology Letters, vol. 31, Issue. 11, pp. 897-900, June 1, 2019.
    • C. T. Tsai, C. C. Li, C. H. Lin, C. T. Lin, Sien Chi, and G. R. Lin*, “Long-reach 60-GHz MMWoF link with free-running laser diodes beating,” Scientific Reports, Vol. 8, No. 13711, pp. 1-14, Sep. 2018.
    • C. H. Lin, R. Fang, C. T. Lin*, C. C. Wei, and S. Chi, “43.63-Gbit/s Multiple-User SC-FDMA PON With Sub-Nyquist Receiver and PAPR Reduction,” IEEE Photonics Technology Letters, vol. 30, No. 19, pp. 1663-1666, Sep.3, 2018.
    • J. H. Hsu, M. Yu, F. Liu, C. H. Lin, C. T. Lin, L. Zhou, L. Fang, and C. C. Wei, “On channel estimation schemes for APD-based DDM-OFDM-PONs under sub-Nyquist sampling,” OSA Optics Express, Vol. 26, No. 23, pp. 23808-23818, Aug. 30, 2018.
    • H. T. Huang, C. S. Sun, C. T. Lin*, C. C. Wei, W. S. Zeng, H. Y. Chang, Boris (P. T.) Shih**, and A. Ng'oma, “Direct-Detection PDM-OFDM RoF System for 60-GHz Wireless MIMO transmission without Polarization Tracking,” IEEE/OSA Journal of Lightwave Technology, vol. 36, No.17, pp. 3739-3745, Sep. 1 2018.
    • J. H. Hsu, Min Yu, C. C. Wei, Chi-Hsiang Lin, C T. Lin, F. Liu, L. Zhou, and L. Fang, “Employing Hybrid sub-Nyquist Sampling Rates to Support Heterogeneous Services of Varying Capacity in 25-Gbps DDM-OFDM-PON,” IEEE Photonics Journal, Volume: 10 , Issue: 2 , April 2018.
    • C. H. Lin, C. T. Lin*, C.C. Wei, and S. Chi, “DFT/IDFT-Free Receiving Scheme for Spread-OFDM Signals Employing Low-Sampling-Rate ADCs,” Optics Express. vol. 25, No. 22, pp. 27750-27757, Oct. 30, 2017.
    • C. T. Lin*, S. C. Chiang, C. H. Li, H. T. Huang, C. H. Lin, B. J. Lin, “V-band Gapless OFDM RoF System with Power Detector Down-conversion and Novel Volterra Nonlinear Filtering,” Optics Letters, Vol. 42, Issue 2, pp. 207-210, Jan 15 2017.

  • 會議論文
    • C. C. Wei, Y. J. Huang, Z. X. Xie, P. Y. Huang, P. H. Ting, C. T. Lin*,” > 100 Gbps 3× 3 MIMO V-Band RoF System for up to 100 m Wireless Transmission Enabled by NN-based Equalization,” Optical Fiber Communication Conference (OFC 2022), W4C. 3, San Diego, California, March, 6-10, 2022.
    • Y. J. Cai, S. H. Yu, Z. W. Huang, Y. W. Wang, P. H. Ting, Y. P. Lan, C. J. Fang, H. C. Lin, B. C. Chen, C. T. Lin*.” 10 Gbps Laser Communication for Low Earth Orbit Satellites with Volterra and Machine Learning Nonlinear Compensation Providing Link Budget up to 74 dB,” 2022 Optical Fiber Communication Conference (OFC 2022), M1C. 2, San Diego, California, March, 6-10, 2022.
    • Y. J. Huang, G. T. Lin, P. H. Ting, Z. W. Huang, S. H. Yu, Y. J. Cai, C. C. Wei, S. Chi, C. T. Lin*,” Mobile 14-GHz Bandwidth Fronthaul Link Supporting 128 RF-Chain Signals for 6G Ma-MIMO Beamforming,” 2022 Optical Fiber Communication Conference (OFC 2022), M1C. 5, San Diego, California, March, 6-10, 2022.
    • P. Y. Huang, Z. X. Xie, T. H. Hsieh, S. H. Yu, C. C. Wei, S. Chi, C. T. Lin,, “3× 3 MIMO 60-GHz Direct-Detection OFDM RoFMF System with Mitigation of Optical Carrier Power Fading,” 2021 Optical Fiber Communication Conference (OFC 2021), Tu6E.3, all-virtual format, 06-11 June 2021.
    • P. H. Ting, S. H. Yu, Z. W. Huang, C. C. Wei, S. Chi, C. T. Lin, “Fronthaul Optical Links Implemented by Using Sub-Nyquist Sampling Rate ADC for B5G/6G Sub-THz Ma-MIMO Beamforming,” 2021 Optical Fiber Communication Conference (OFC 2021), M3J.5, all-virtual format, 06-11 June 2021.
    • S. H. Yu, P. Y. Huang, C. H. Lin, C. T. Lin*, C. C. Wei, and S. Chi “Broadband Wired and Wireless Access System with Novel Sub-Nyquist Sampling-Rate ADC Receiver,” The 25th OptoElectronics and Communications Conference (OECC 2020), T2-4.1 , Taipei, Taiwan, 4-8 Oct. 2020. (Invited Speaker)
    • Chun-Ching Yang, Kuan-Lin Su, Chun-Ting Lin, Shou-Wei Wang, Cheng-Yeh Lin, Chien-Chung Lin, Ping-Yao Huang, Jhen-Hong Yang, Kuo-Ping Chen, "High-Efficiency Polarization Rotator-Splitter on SOI Platform," 25th Optoelectronics and Communications Conference (OECC), Taipei, Taiwan, October, 2020.
    • Z. X. Xie, B. J. Lin, P. X. Ding, T. H. Tsai, P. Y. Huang, C. C. Wei, and C. T. Lin*., “81.37-Gbps 2×2 MIMO 60-GHz OFDM-RoF System Employing I/Q Nonlinear Compensation Filtering Algorithm,” 2020 Optical Fiber Communication Conference (OFC 2020), W2A.38, San Diego, California, March, 7-12, 2020.
    • P. Y. Huang, W. L. Li, T. H. Tsai, Z. X. Xie, and C. T. Lin*, “52.58-Gbps Fiber-Wireless 60-GHz 2×2 MIMO System Integrating Optical Mode Division Multiplexing and Wireless MIMO,” 2020 Optical Fiber Communication Conference (OFC 2020), W2A.39, San Diego, California, March, 7-12, 2020.
    • W. L. Chen, M. Yu, L. Y. Yang, C. C. Wei, and C. T. Lin, “Low-Bandwidth Sub-Nyquist A/D Conversion in Delay-Division Multiplexing OFDM PONs Enabled by Optical Shaping,” 2020 Optical Fiber Communication Conference (OFC 2020), Th1B.7, San Diego, California, March, 7-12, 2020.
    • M. Yu, F. Liu, W. L. Chen, C. T. Lin*, L. Zhou, L. Fang, and C. C. Wei, “Simple Down-Conversion by Power Detector in a 2x2 MIMO V-Band Optical/Wireless System with Mitigation of Beating Interference,” 24th OptoElectronics and Communications Conference (OECC 2019), C000269, Fukuoka, Japan, July, 7-11, 2019.
    • M. Yu, F. Liu, W. L. Chen, C. T. Lin, L. Zhou, L, Fang, and C. C. Wei, “Novel Time Synchronization Scheme in Delay-Division-Multiplexing OFDM-PON Using Sub-Nyquist Sampling,” 2019 Optical Fiber Communication Conference (OFC 2019), W2A.27, San Diego, California, March, 3-7, 2019.
    • Chiao-Wei Chen, Chien-Cheng Li, and Chun-Ting Lin*, “Hybrid Optical Wired/Coherent-Wireless OFDM Access Networks with Baseband Signal Modulation and Envelop-Detection Down-Conversion,” 2018 Conference on Lasers and Electro-Optics/Pacific Rim Conference (CLEO-PR 2018), W2I.4, Hong Kong, China, July 29- August 3, 2018.
    • Hao-Hsiang Chang, Wen-Huang Chen, Chun-Ting Lin*, “Multiple-User SC-FDMA System with Sub-Nyquist Receiver and PAPR Reduction,” 2018 Conference on Lasers and Electro-Optics/Pacific Rim Conference (CLEO-PR 2018), Th3I.6, Hong Kong, China, July 29- August 3, 2018.
    • Hao-Hsiang Chang, Chi-Hsiang Lin, Chun-Ting Lin*, “43.63-Gbit/s Multiple-User SC-FDMA PON with sub-Nyquist Receiver and PAPR Reduction,” 2018 27th Wireless and Optical Communication Conference (WOCC2018), 8372740, Hualien, Taiwan, 30 April-1 May 2018. (Best Paper Award)
    • J. H. Hsu, M. Yu, C. C. Wei, C. H. Lin, C. T. Lin, F. Liu, L. Zhou, and L. Fang, “Novel DDM-OFDM-PON with Hybrid Sub-Nyquist Sampling Rates Featuring Heterogeneous ONUs with Different Capacities,” 2018 Optical Fiber Communication Conference (OFC 2018), W4G.5, San Diego, California, March, 11-15, 2018.
    • C. H. Lin, C. T. Lin*, C. C. Wei, S. Chi, and R. Fang, “Simplified 27.15 Gbits/s Spread-OFDM PON using DFT/IDFT-free Receiver with 1/16 Sub-Nyquist Sampling Rate,” 2017 Optical Fiber Communication Conference (OFC 2017), W1K.2, Los Angeles, California, March, 21-23, 2017. 18.  
    • Y. L. Huang, C. C. Wei, C. T. Lin*, and C. H. Lin, “Novel Detection in V-band MIMO OFDM RoF Systems Using ADCs with Sub-Nyquist Sampling,” 2017 Optical Fiber Communication Conference (OFC 2017), Tu2F.4, Los Angeles, California, March, 21-23, 2017.

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