| 周錫熙 H.-H. Chou |
|
|---|---|
| 職稱 | |
| 教授 | |
| 學歷 | |
| 英國劍橋大學三一學院工程博士 | |
| 電子郵件 | |
| hsi-hsir.chou@mail.ntust.edu.tw | |
| 辦公室 | |
| EE-707 |
| Office Hours | Please make an appointment by email in advance |
|---|---|
| 電話 | +886-(0)2-27376416 |
| 個人網頁 | https://orcid.org/0000-0003-1894-1071 |
| 實驗室 | Advanced Lightwave Technology Lab |
| 研究領域 | 光纖寬頻網路接取技術、無線光通訊、毫米波通訊、液晶光電元件、液晶射頻元件 |
| 開授課程 | 光纖寬頻網路接取技術、光電系統設計、無線光通訊原理與實務、電磁學、電子工程總整課程 |
| 2023.02 ~ now | 國立臺灣科技大學電子工程系(所)暨光電工程研究所 教授 |
| 2019.12 ~ 2019.12 | 英國牛津大學工程科學系訪問學者(臺灣與英國牛津大學學術策略聯盟) |
| 2018.08 ~ 2023.01 | 國立臺灣科技大學電子工程系(所)暨光電工程研究所 副教授 |
| 2013.08 ~ 2018.07 | 國立臺灣科技大學電子工程系(所)暨光電工程研究所 助理教授 |
| 2023 | 國立成功大學教師升等著作外審審查委員 |
| 2022 | 國立臺灣科技大學110學年教學優良獎 |
| 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 | 科技部103/104年度補助延攬特殊優秀人才獎勵 |
| 2013 | IEEE 資深會員 (Senior member, IEEE) |
| 2013 | 國科會102年度補助延攬特殊優秀人才獎勵 |
| 2005 | Scholar of Cambridge Overseas Trust, University of Cambridge, U.K. |
| 2005 | Fellow of the Cambridge Overseas Society, University of Cambridge, U.K. |
研究成果
| [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. (國立臺灣科技大學) |
| [2] | 周錫熙、劉康昀“基於軌道角動量之非對稱式雙向無線光通訊系統”中華民國發明專利第I762299號,2022/04/21,(國立臺灣科技大學)。 |
| [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. (國立臺灣科技大學) |
| [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. (國立臺灣科技大學) |
| [5] | 周錫熙、黃韋達“基於自注入鎖定之波長可調雙向無線光通訊系統”中華民國發明專利第I735194號,2021/08/01,(國立臺灣科技大學)。 |
| [6] | 周錫熙、蕭仁豪“分波多工雙向傳輸接取系統”中華民國發明專利第I713997號,2020/12/21,(國立臺灣科技大學)。 |
| [7] | 周錫熙、黃韋達“雙向光傳輸系統”中華民國發明專利第I695197號,2020/06/01,(國立臺灣科技大學)。 |
| [8] | 廖虹惠、周錫熙、徐希白"智慧型多波長動態光延遲緩衝控制裝置"中華民國發明專利第I647926號,201901(中華電信研究院)。 |
| [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. (國家中山科學研究院) |
| [10] | 廖虹惠、周錫熙、林恭政、徐希白“智慧型複合式多波長選取光源產生 裝置”中華民國發明專利第I562559 號,201703,(中華電信研究院)。 |
| [1] | 周錫熙、柯冠州,「智能頻率選擇技術於智慧電網之應用」,台電工程月刊,第873期,第93-100頁,2021年5月。 |
研究成果
| 計畫名稱 | 計畫總額 | 執行始於 | 執行結束 | 委託單位 |
|---|---|---|---|---|
| 我國移動型輻射源引進室內定位系統技術之技術架構設計實作與劑量分析評估 | NTD | 202501 | 202512 | 國科會 |
| 基於液晶之陣列反射面結構之研究 | NTD | 202408 | 202507 | 國科會 |
| 應用於低軌衛星通訊之非對稱式無線光通訊系統之研究 | NTD | 202406 | 202505 | 國科會 |
| 國內專家學者出席國際學術會議 (iWAT 2024) | NTD | 202404 | 202404 | 國科會 |
| 我國移動型輻射源引進室內定位系統技術之技術與可行性研究 | NTD | 202401 | 202412 | 國科會 |
| 應用於低軌道衛星通訊之液晶陣列天線之研究 | NTD | 202306 | 202405 | 國科會 |
| 科學與技術人員國外短期研究 | NTD | 202301 | 202312 | 國科會 |
| Ku-band高頻液晶天線之研究 | NTD | 202109 | 202209 | 德國默克集團(Merck KGaA) |
| 基於液晶與超材料之複合式頻率選擇表面之實驗研究 | NTD | 202108 | 202207 | 科技部 |
| 基於液晶與超材料之複合式頻率選擇表面之研究 | NTD | 202008 | 202107 | 科技部 |
| 109年度教育部智慧聯網技術課程計畫 | NTD | 202008 | 202106 | 教育部 |
| 應用於無線光通訊之智慧型自注入鎖定技術之研究 | NTD | 202006 | 202105 | 科技部 |
| 智能頻率選擇面之研究 | NTD | 201911 | 202010 | 國家中山科學研究院 |
| 國內專家學者出席國際學術會議 (ACP 2019) | NTD | 201911 | 201911 | 科技部 |
| 行動寬頻課程推廣計畫-無線光通訊原理與實務 | NTD | 201812 | 20201 | 教育部 |
| 基於穿透式液晶空間光調變器之雙向無線光通訊接取系統之研究 | NTD | 201811 | 201912 | 科技部 |
| 穿透式液晶空間光調變器之研究 | NTD | 201811 | 201912 | 源奇科技股份有限公司 |
| 雙向無線光通訊接取系統架構之設計與研究 | NTD | 201808 | 201912 | 科技部 |
| 2018國際微光學會議(MOC 2018) | NTD | 201801 | 201812 | 經濟部國貿局 |
| 毫米波透鏡暨瓦楞式波導結構天線 | NTD | 201711 | 201811 | 碩訊科技股份有限公司 |
| 應用於NG-PON2之 雙向非對稱式光多波長選擇開關之研究與實現 | NTD | 201708 | 201807 | 科技部 |
| 科技部與英國愛丁堡皇家學院科技合作協議 | NTD & GBP | 201707 | 201708 | 科技部 & 英國愛丁堡皇家學院 |
| 圓柱共形陣列天線研究 (共同主持) | NTD | 201701 | 201712 | 科技部 |
| 38 GHz Band 陣列天線之波束校正研究(協同主持) | NTD | 201604 | 201611 | 國家中山科學研究院 |
| 2016國際光學與光電研討會暨科技部光電學門成果發表會 | NTD | 201601 | 201612 | 經濟部國貿局 |
| 新一代MxN光波長選擇交換機之設計與實現 | NTD | 201508 | 201607 | 科技部 |
| RF系統輻射波束及相位校正(協同主持) | NTD | 201504 | 201512 | 國家中山科學研究院 |
| 綠能建築通訊技術之研究與實現 | NTD | 201408 | 201507 | 科技部 |
| 使用液晶進行陣列反射天線之設計與實現 | NTD | 201311 | 201410 | 國科會 |
指導學生
| 學年 | 論文題目 | 學生 |
|---|
| 學年 | 論文題目 | 學生 |
|---|---|---|
| 113 | 超寬頻液晶波束可調微帶貼片天線的可重構設計 | 呂行 |
| 113 | 應用於低軌道與同步衛星通訊之雙頻段液晶陣列反射天線之研究 | 蔡秉勳 |
| 113 | 應用於5G與低軌衛星通訊之雙頻段液晶穿透與反射陣列天線結構之研究 | 王子冀 |
| 113 | 應用於Ku-band具有波束掃描能力之液晶陣列天線的可重構設計 | 張允豪 |
| 112 | 應用於微波之液晶頻率選擇技術之研究 | 許峻浩 |
| 112 | 應用於微波之Pin Diode主動式頻率選擇技術之研究 | 左昌立 |
| 112 | 應用於衛星通訊之液晶雙頻頻率選擇技術之研究 | 葉昱辰 |
| 111 | Ku頻段液晶微帶天線與陣列結構之研究 | 李宗儒 |
| 110 | 基於自注入鎖定之非對稱式雙向無線光通訊之研究 | 徐哲謙 |
| 109 | 窄頻帶通與液晶複合式頻率選擇技術之研究 | 柯冠州 |
| 109 | 高頻液晶微帶天線之研究 | 劉家豪 |
| 108 | 基於貓眼設計之非對稱式雙向無線光通訊系統之研究 | 謝宗佑 |
| 108 | 非對稱式雙向無線光通訊系統之研究 | 黃韋達 |
| 108 | 基於動態多點通訊技術之室內可見光通訊系統實驗研究 | 李培煜 |
| 108 | 基於軌道角動量之非對稱式雙向無線光通訊系統之研究 | 劉康昀 |
| 107 | 運用相位調控達成光學相位陣列積體化LiDAR之波束成形(共同指導) | 張榮安 |
| 106 | 應用於NG-PON2之多波長選擇開關之研究 | 陳加倫 |
| 105 | 應用於5G之短距離微投影通訊架構之研究與實現 | 蔡承佑 |
| 105 | 應用波長選擇開關於無線光通訊之研究與實現 | 蕭仁豪 |
| 105 | 1x9 波長選擇開關之研究與實現 | 王彥文 |
| 105 | 應用可見光通訊技術於行動裝置之研究 | 江志善 |
| 103 | 基於RGB LED之500 Mb/s高速可見光通訊系統之研究(共同指導) | 吳軍銳 |
| 103 | 基於LCoS SLM之1x12光交換機 之設計與研究 (共同指導) | 黃祈瑋 |
| 103 | 三級高功率鉺鐿共摻光纖放大器研製與應用(共同指導) | 彭昶銘 |
| 103 | 基於微投影架構之RGB LED可見光通訊系統之研究 (共同指導) | 鄧強 |
| 102 | 基於微投影架構之300 Mb/s 高速LED 可見光通訊(共同指導) | 簡名仁 |
| 學年 | 專題題目 | 學生 |
|---|
| 年份 | 事蹟 |
|---|---|
| 2021 | 第二屆全國太赫茲創新技術應用專題實作競賽佳作 (指導學生:柯冠州、劉家豪) |
| 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全國大專創意電磁實作競賽佳作(指導學生:吳映澄、江哲瑋、趙啟田、王淯銓) |
| 2017 | 2017全國大專創意電磁實作競賽佳作(指導學生:盧建佑、吳旭康、姚力宏、許智鈞) |