Faculty

周錫熙 H.-H. Chou photo
Position
Professor
Education
PhD in Engineering, Trinity College, University of Cambridge, U.K.
E-mail
hsi-hsir.chou@mail.ntust.edu.tw
Room
EE-715

Office Hours Please make an appointment by email in advance
Telephone +886-(0)2-27376375
Homepage https://orcid.org/0000-0003-1894-1071
Laboratory Advanced Lightwave Technology Lab
Major Field Fiber Broadband Network Access Technology, Optical wireless、mmWave communications、liquid crystal device for photonics and RF applications.
Course Fiber Broadband Network Access Technology, Photonic system design, Optical wireless communications, Electromagnetism, Capstone course.

2023.02 ~ now Professor, Department of Electronic and Computer Engineering, National Taiwan University of Science and Technology
2019.12 ~ 2019.12 Visiting Scholar, Department of Engineering Science, Oxford University, U.K. (Academic Strategic Alliance: Taiwan and Oxford University)
2018.08 ~ 2023.01 Associate Professor, Department of Electronic and Computer Engineering, National Taiwan University of Science and Technology
2013.08 ~ 2018.07 Assistant Professor, Department of Electronic and Computer Engineering, National Taiwan University of Science and Technology


2023 國立成功大學教師升等著作外審審查委員
2022 Excellent teaching award, National Taiwan University of Science and Technology
2022 教育部第二屆智慧晶片系統應用創新專題實作競賽評審委員
2021 國立臺灣大學專利審查校外委員
2021 教育部第一屆智慧晶片系統應用創新專題實作競賽評審委員
2020 財團法人國家實驗研究院台灣半導體研究中心晶片審查委員
2017 2017 Honorary Research Fellow, University of Glasgow, U.K.
2014 Award for Special Talent, MOST, Taiwan 2014/2015
2013 Senior member, IEEE
2013 Award for Special Talent, National Science Council (NSC), Taiwan 2013
2005 Scholar of Cambridge Overseas Trust, University of Cambridge, U.K.
2005 Fellow of the Cambridge Overseas Society, University of Cambridge, U.K.

Research Achievement
  [1]   *H.-H. Chou, G.-J. Ke, C.-C. Lin and G.-S. Lin, "Reconfigurable Design of mmWave Liquid-Crystal Frequency Selective Surface at Ka-band", in IEEE Transactions on Electromagnetic Compatibility, 2022, doi: 10.1109/TEMC.2022.3193995. (SCIE)
  [2]   *H.-H. Chou, and G.-J. Ke, "Ultrathin narrowband frequency selective surface with high angular and polarization stability at X-band frequencies", Microwave and Optical Technology Letters 2022;64:452–457. https://doi.org/10.1002/mop.33129 (SCIE)
  [3]   *H.-H. Chou and K.-Y. Liu, "Asymmetrical bidirectional VLC based on beam homogenizer OAM generation technology," (OPTICA, formerly OSA) Optics Letters 46, 5381-5384 (2021) (SCIE)
  [4]   *H.-H. Chou and C.-L. Chen, "Asymmetric Optical Wavelength Switch Based on LCoS-SLM for Edge Node of Optical Access Network," IEEE Photonics Journal, vol. 13, no. 4, pp. 1-8, Aug. 2021 (SCI)
  [5]   *H.-H. Chou and G.-J. Ke, "Narrow Bandpass Frequency Selective Surface With High Level of Angular Stability at Ka-Band," IEEE Microwave and Wireless Components Letters, vol. 31, no. 4, pp. 361-364, April 2021 (SCI)
  [6]   *H.-H. Chou and W.-T. Huang, "Wavelength Tunable Asymmetric B-OWC System Based on Self-Injection Locking for TDM-PONs," IEEE Photonics Technology Letters, vol. 33, no. 7, pp. 370-372, 1 April, 2021. (SCI)
  [7]   *H.-H. Chou and W.-T. Huang, "Asymmetrical bidirectional optical wireless communication system based on a transmissive 1D LC-SLM for NG-PON2," (OSA) Optics Letters 45, 4543-4546 (2020)(SCI)
  [8]   *H.-H. Chou and J. Hsiao, "Experimental Demonstration of an LCoS-based Access Node for Bidirectional Optical Wireless Communications," IEEE Photonics Journal, vol.10, no.4, pp. 1-13, 2018 (SCI)
  [9]   *H.-H. Chou, C-Y Tsai and C-L Chen, "Experimental study of reconfigurable visible light communications based on holographic spot array generations," IEEE Photonics Journal, vol.10, no. 2, pp. 1-10, 2018 (SCI)
  [10]   *H.-H. Chou and C.-Y. Tsai, "Demonstration of Micro-Projection enabled Short-Range Communication System for 5G", (OSA) Optics Express, vol.24, no.12, pp.13075-13080. 2016 (SCI)
  [11]   F. Zhang, *H.-H. Chou and W.A. Crossland, "PLZT-based Shutters for Free-Space Optical Fiber Switching," IEEE Photonics Journal, vol.8, no.1, pp.1-12, 2016(SCI)
  [12]   Y.-l. Yu, S.-K. Liaw, H.-H. Chou, Hoa Le-minh and Zabih Ghassemlooy, " A Hybrid Optical Fiber and FSO System for Bidirectional Communications used in Bridges” IEEE Photonics Journal, vol.7, no.6, pp.1-9, 2015 (SCI)
  [13]   *H.-H. Chou and Y.-S. Lee, "Experimental Investigation and Analysis of EMI in Stacked I/O Connectors of PCB", Journal of Electromagnetic Waves and Applications, vol. 30, no.2, pp. 195-206, 2015 (SCI)
  [14]   *H.-H. Chou, B. Pranggono, T.D. Wilkinson, F. Zhang, W.A. Crossland, J.M.H. Elmirghani, "Free-Space Optoelectronic Switching Core with MPLS for SANs over WDM Ring Network" (IEEE/OSA) Journal of Optical Communications and Networking, Vol.4, No.7, pp. 533-545, 2012. (SCI)
  [15]   *H.-H. Chou, F. Zhang, T.D. Wilkinson, N. Collings, W.A. Crossland, "Implementation of 6x6 Free-Space Optical Fiber Ribbon Switch for Storage Area Networks", (IEEE/OSA) Journal of Lightwave Technology, Vol.30, No.11, pp.1719-1725, 2012, (SCI)
  [16]   *H.-H. Chou, T.D. Wilkinson, Y.-S. Lee, H.-Y. Chen and S.-T. Peng " Analysis and Treatment of U-shape PCB I/O Ports to Reduce the EMI from Image Plane Noise" IEEE Transactions on Components, Packaging and Manufacturing Technology Vol.1 No. 3, pp.446-452, 2011(SCI)
  [17]   *H.-H. Chou, T.D. Wilkinson, N. Collings, W.A. Crossland et al., "Implementation of coarse wavelength division multiplexing multi-wavelength routing switch core for storage area networks” IET Optoelectronics, Vol.4, No. 2, pp.64-77, 2010 (SCI)
  [18]   H.-H. Chou, et al., "Reduction of Peak SAR in Human Head for Handset Applications with Resistive Sheets (R-Cards)," Progress In Electromagnetics Research, PIER 94, 281-296, 2009. (SCI)
  [1]   Y.-H. Chang and *H.-H. Chou,"Performance Evaluation of LC Materials for Display and Non-display Applications in Ku-Band 6x6 Antenna Array Structure," 2024 IEEE International Workshop on Antenna Technology (iWAT), Sendai, Japan, 2024, pp. 14-17, doi: 10.1109/iWAT57102.2024.10535855.
  [2]   C.-C. Lin, G.-S. Lin, G.-J. Ke and *H.-H. Chou, "Tunable Frequency Selective Surface (FSS) based on LC Material for mmWave Communications," 2021 International Symposium on Antennas and Propagation (ISAP), 2021, pp. 1-2, doi: 10.23919/ISAP47258.2021.9614366.
  [3]   G.-J. Ke, *H.-H. Chou, G.-S. Lin and C.-C. Lin, "Simulation Design of LC-based Tunable Frequency Selective Surface at Ka-Band," 2020 Opto-Electronics and Communications Conference (OECC), Taipei, 2020, pp. 1-3.
  [4]   *H.-H. Chou, Pei-Yu Li, Hung-Huei Liao and T.D. Wilkinson, "Experimental Study of Visible Light Communications based on Dynamic Multispot Communication Technique", Asia Communications and Photonics Conference (ACP 2019), Chengdu, China.
  [5]   *H.-H. Chou, and Chia-Lun Chen, "Demonstration of Asymmetric Wavelength Selective Switch based on LCoS SLM for Optical Access Network", 21st International Conference of Transparent Optical Network (ICTON 2019), Angers, France.
  [6]   *H-H Chou and J. Hsiao, "LCoS-based Access Node for Bidirectional Optical Wireless Communications," in Optical Fiber Communication Conference (OFC), OSA Technical Digest (Optical Society of America, 2018), paper M1F.7.
  [7]   *H.-H. Chou and C.-Y. Tsai, "Demonstration of Micro-Projection enabled Short-Range Communications for 5G", 21st Optoelectronics and Communications Conference/International Conference on Photonics in Switching (OECC/PS 2016), July. 2016, Niigata, Japan
  [8]   C.-W. Huang, S.-L. Lee, and *H-H Chou, “An Experimental Study of 1x12 Optical Switch Based on Liquid Crystal on Silicon (LCoS) SLM,” Optics & Photonics Taiwan, the International Conference (OPTIC 2015), Dec. 04-06, 2015, Taiwan
  [9]   S.-K. Liaw, Y. Yu, H.-H. Chou, Hoa Le-minh and Zabih Ghassemlooy, " Fiber Optics Devices Characteristics Evaluation and Measurement," Measurement Technology and Intelligent Instruments (ISMTII), 2015 International Symposium on, vol., no., pp.1,3, 22-25 September 2015 (Invited Paper)
  [10]   *H-H Chou, S. K. Liaw, C. Tang, J.-S. Jiang, C.-Y. Tsai, C. J. Wu and M. J. Chien, “RGB LEDs Visible Light Communications Based on Equalized Receiver with Broadband Optical Filters”, FOAN, ICUMT 2015, Brno, Czech Republic.
  [11]   *H.-H. Chou, Shien-Kuei Liaw, Ming-Jen Chien, Chun-Jui Wu, and Chiang Teng "Experimental Study of a Portable FLCOS Projector with Visible Light Communication (VLC) Technology," Next-Generation Electronics (ISNE), 2015 International Symposium on, vol., no., pp.1,3, 4-6 May 2015
  [12]   Shien-Kuei Liaw, *H.-H. Chou, Chun-Jui Wu, Ming-jen Chien, Chiang Teng, "500 Mb/s OOK visible light communications using RGB-based LEDs," Next-Generation Electronics (ISNE), 2015 International Symposium on, vol., no., pp.1,3, 4-6 May 2015
  [1]   H.-H. Chou and K.-Y. Liu, “Asymmetric bidirectional optical wireless communication system based on orbital angular momentum”, U. S. patent number: US 11,736,205 B2, Issued date: August. 22, 2023. (National Taiwan University of Science and Technology)
  [2]   H.-H. Chou and K.-Y. Liu,“ Asymmetric Bidirectional Optical Wireless Communication System Based on Orbital Angular Momentum", Taiwan Patent number: I762299, Issued date: April. 21, 2022. (National Taiwan University of Science and Technology)
  [3]   H.-H. Chou and W.-T. Huang,“ Wavelength tunable bidirectional optical wireless communication system based on self-injection lock”, U. S. patent number: US11,314,002 B2, Issued date: April. 26, 2022. (National Taiwan University of Science and Technology)
  [4]   H.-H. Chou and W.-T. Huang,“ Bidirectional optical wireless transmission system”, U. S. patent number: US 11,218,219 B2, Issued date: January. 04, 2022. (National Taiwan University of Science and Technology)
  [5]   H.-H. Chou and W.-T. Huang,“ WAVELENGTH TUNABLE BIDIRECTIONAL OPTICAL WIRELESS COMMUNICATION SYSTEM BASED ON SELF-INJECTION LOCK", Taiwan Patent number: I735194, Issued date: August. 01, 2021. (National Taiwan University of Science and Technology)
  [6]   H.-H. Chou and J. Hsiao, “WAVELENGTH SELECTIVE ENABLE BIDIRECTIONAL ACCESS SYSTEM", Taiwan Patent number: I713997, Issued date: December. 21, 2020. (National Taiwan University of Science and Technology)
  [7]   H.-H. Chou and W.-T. Huang, “BIDIRECTIONAL OPTICAL WIRELESS TRANSMISSION SYSTEM ", Taiwan Patent number: I695197, Issued date: June. 01, 2020. (National Taiwan University of Science and Technology)
  [8]  
  [9]   Nan-Wei Chen, H.-H. Chou, Yao-Chiang Kan, Dun-Yuan Cheng and Chien-Te Yu,“ SMART COMMUNICATION SYSTEM WITH ADAPTIVE ANTENNA BEAM– FORMING FOR LINK OF DATA TRANSMISSION DEVICE TO USER DEVICE, AND ASSOCIATED BEAM-FORMING METHOD THEREFOR”, U. S. patent number: 9913096, Issued date: March. 06, 2018.
  [10]  
  [1]  

Research Achievement
Title Total Amount Conduct From Conduct Until Client
Investigation of reflectarray structure based on Liquid Crystals for mmWave communications NTD 202408 202507 NSTC
Investigation of Asymmetric Bidirectional Optical Wireless Communication System for Low-Earth Orbit (LEO) Satellite Communications NTD 202406 202505 NSTC
Domestic experts and scholars attended the international academic conference (iWAT 2024) NTD 202404 202404 NSTC
Technology and Feasibility Study of Introducing Indoor Positioning System Technology into Portable Radiation Sources in Taiwan NTD 202401 202412 NSTC
Investigation of Liquid Crystal Antenna Arrays for Low-Earth Orbit (LEO) Satellite Communications NTD 202306 202405 NSC
Short-term research abroad by science and technology scholars NTD 202301 202312 NSTC
Experimental investigation of high-frequency liquid crystal antenna for Ku-band application NTD 202109 202209 Merck KGaA (Darmstadt, Germany)
Experimental investigation of hybrid frequency selective surface based on metamaterials and liquid crystal materials NTD 202108 202207 MOST
Experimental investigation of hybrid frequency selective surface based on liquid crystal material and metamaterials NTD 202008 202107 MOST
Smart Internet Technology Course Plan NTD 202008 202106 Ministry of Education
Experimental study of optical wireless communications based on intelligent self-injection locking technology NTD 202006 202105 MOST
Investigation of smart frequency selective surface NTD 201911 202010 National Chung-Shan Institute of Science & Technology
Domestic experts and scholars attended the international academic conference (ACP 2019) NTD 201911 201911 MOST
Mobile Broadband Course Promotion Plan-Principles and Practices of Wireless Optical Communications NTD 201812 20201 Ministry of Education
Experimental investigation of bidirectional optical wireless communications based on transmissive LC-SLM NTD 201811 201912 MOST
Experimental investigation of transmissive LC-SLM NTD 201811 201912 LIQXTAL TECHNOLOGY INC.
Architecture Design of Optical Wireless Access Node for Bidirectional Optical Wireless Communications NTD 201808 201912 MOST
The 23rd Microoptics Conference MOC 2018 NTD 201801 201812 International Trade Administration, Ministry of Economic Affairs
Millimeter wave lens and corrugated waveguide structure antenna NTD 201711 201811 TRC Training Research Co., Ltd
Experimental Investigation of Bidirectional Asymmetric Multi- Wavelength Selective Switch for NG-PON2 NTD 201708 201807 MOST
INTERNATIONAL EXCHANGE PROGRAMME Bilateral - Travel TO Scotland NTD & GBP 201707 201708 MOST & Royal Society of Edinburgh
Conformal Cylindrical Array Antenna Development NTD 201701 201712 MOST
Special project of 38 GHz Band array antenna (Co-PI) NTD 201604 201611 NCSIST
Optics & Photonics TaiwanInternational Conference 2016, OPTIC 2016 NTD 201601 201612 International Trade Administration, Ministry of Economic Affairs
Design and Experimental Implementation of a New Generation MxN Wavelength Selective Switch NTD 201508 201607 MOST
Special project of RF system (Co-PI) NTD 201504 201512 National Chung-Shan Institute of Science & Technology
Development and Experimental Implementation of Key-enabling Communication Technology for Green Building Application NTD 201408 201507 MOST
Design and Implementation of Reflectarray Antenna using Liquid Crystals NTD 201311 201410 NSC

Student
Academic Year Thesis Title Student
M.S
Academic Year Thesis Title Student
112 Experimental research of frequency selective surface based on liquid crystal for microwave applications Chun-Hao Hsu
112 Experimental research of active frequency selective surface based on Pin Diode for microwave applications CHANG-LI TSO
111 Ku-band liquid crystal antenna and array structure analysis Zong-Ru Lee
110 Experimental study of SIL-based asymmetric bidirectional optical wireless communication Che-Chien Hsu
109 Experimental research of hybrid frequency selective surface based on metamaterials and liquid crystal materials Guan-Jhou Ke
109 Experimental study of liquid crystal patch antenna Jia-Hau Liu
108 Experimental Study of Bidirectional Asymmetrical Optical Wireless Communication based on Cat’s eyes optics Hsieh Tsung-Yu
108 Experimental study of asymmetrical bidirectional optical wireless communication system WEI-TA HUANG
108 Experimental Study of Indoor Visible Light Communications System based on Dynamic Multispot Communication Technique Pei-Yu Li
108 Experimental Study of Asymmetric Bidirectional Wireless Optical Communication System Based on Orbital Angular Momentum Kang-Yun Liu
107 Beam Forming Optical Phase Array based LiDAR through Phase Control (Co-supervision) JUNG-AN CHANG
106 Experimental Study of Multi-Wavelength Selective Switch for NG-PON2 Chia-Lun Chen
105 Experimental Implementation of Micro-Projection enabled Short-Range Communication Architecture for 5G Cheng-Yu Tsai
105 Experimental Implementation of Optical Wireless Access Node using Wavelength Selective Switch Jen-Hao Hsiao
105 Experimental Study of 1x9 Wavelength Selective Switch W. Wang
105 Research of applying visible light communication on mobile device Jhih-Shan Jiang
103 Experimental study of 500 Mb/s high-speed visible light communication system based on RGB LED (Co-supervision)) Chun-Jui Wu
103 Experimental Study of 1x12 Optical Switch Base on LCoS Spatial Light! Modulator (Co-supervision) Chi-Wei Huang
103 Three-stage, High-power EYDFA:Investigation and Application (Co-supervision)) Chang-Ming Peng
103 Experimental Study of RGB LED Visible Light Communication System Ba! sed on Micro-Projection Architecture (Co-supervision) Chiang Teng
102 300Mb/s High-Speed LED Visible Light Communication Based on Micro-Projection Architecture (Co-supervision) Ming-jen Chien
Academic Year Project Title Student
Year Deeds
2021 Taiwan Creative THz/mmWave Implementation Competition (Honorable Mentions for Guan-Jhou Ke)
2021 第二屆全國自駕車系統專題競賽第三名(指導學生:楊凱宇、劉家豪、李宗儒、柯冠州)
2021 2021教育部智慧晶片系統應用創新專題實作競賽模客組晉級決賽(指導學生:楊凱宇、劉家豪、李宗儒、柯冠州)
2017 2017 Taiwan Creative Electromagnetic Implementation Competition (Honorable Mentions for Ying-Cheng Wu、Che-Wei Chiang、Qi-Tian Zhao、Yu-Qum Wang)
2017 2017 Taiwan Creative Electromagnetic Implementation Competition (Honorable Mentions for Jian-You Lu、Xu-Kang Wu、Li-Hung Yao、Chih-Chun Hsu)