Prof. WONG Hang Steve (黃衡)

Awards and Honors

• 2024 “IEEE Fellow” IEEE AP-S. 1 Jan 2024
• 2023 “Best Paper Award” The 18th Chinese National Symposium on Radio Propagation. 27 Sep 2023. China.
• 2023 “Top 2% Most-Cited Scientist”The Stanford Top 2% of the World’s Most Cited Scientist.04 Oct 2023. USA.
• 2022 “The President’s Award”City University of Hong Kong.30 Nov 2022. Hong Kong.
• 2022 “Top 2% Most-Cited Scientist”The Stanford Top 2% of the World’s Most Cited Scientist. 10 Oct 2022. USA.
• 2021 “Top 2% Most-Cited Scientist”The Stanford Top 2% of the World’s Most Cited Scientist. 19 Oct 2021. USA.
• 2020 “Best Paper Award” 2020 Cross-Strait Radio Science and Wireless Technology Conference.15 Dec 2020. China.
• 2019 “Outstanding Reviewer Award”IEEE Transactions on Antennas and Propagation10 July 2019. USA.
• 2019 “Outstanding Product Design Award”China Hi-Tech Fair. 18 Nov 2019. China.
• 2018 “Outstanding Product Design Award”China Hi-Tech Fair. 18 Nov 2018. China.
• 2017 “Best Paper Award”Les Journées Nationales Microondes - JNM2017. 19 May 2017, France.
• 2017 “Best Paper Award”IEEE International Workshop on Electromagnetics. 01 Jun 2017. UK.
• 2017 “Discovery and Innovation Gala Award”CSE, City University of Hong Kong 21 June 2017. Hong Kong.
• 2016 “2016 Young Scientist Award”Shenzhen Science and Technology Bureau 01 April 2017. China.
• 2016 “2016 Best Associate Editor”IEEE Antennas and Wireless Propagation Letters 10 July 2017. USA.
• 2015 “Young Scientist Award”IEEE TENCON conference 3 Nov 2015. Macau.
• 2014 “Outstanding Product Design Award”China Hi-Tech Fair 18 Nov 2014. China.
• 2011 “State Technological Invention Award 國家科學技術發明獎 (second-class honour)”The Ministry of Science and Technology of the P.R. China 23 Dec 2011. China.
• 2011 “Young Scientist Award”International Symposium on Antennas and Propagation 27 Oct 2011. Korea.
• 2008 “Best Paper Award”International Symposium on Antennas and Propagation 30 Oct 2008. Taiwan.
• 2006 “Microwave Student Prize”Asia Pacific Microwave Conference 14 Dec 2006. Japan.
• 2002 “Best Paper Award”IEEE Hong Kong Section 15 Sep 2002. Hong Kong.
• 2002 “Outstanding Thesis Awards”City University of Hong Kong 01 July 2002. Hong Kong.

Research Grants

External Funded:

• “⾯向低軌衛星與5G通信融合的天線關鍵技術研究”, 深港澳科技計劃 (C類) funded by Science and Technology Innovation Commission of Shenzhen Municipality, Technology Research Project of Shenzhen City, RMB 3,000,000., from 24/05/2024 to 26/05/2026. PI.
• “衛星通信、專網通信的⾼性能鎖相環關鍵技術研發”, funded by Innowave China, RMB 500,000, from 01/05/2024 to 30/06/2025. PI.
• “5G智能終端Sub-6GHz及毫米波天線關鍵技術研究”, 广东省基础与应用基础研究基金区域联合基金(粤港澳研究团队)项目 Guangdong Provincial Basic and Applied Basic Research Fund Regional Joint Fund (Guangdong, Hong Kong and Macao Research Team) project, funded by Department of Science and Technology of Guangdong Province, RMB 500,000, 01/10/2023 - 30/09/2026, PI.
• “Investigation of Integrated Sensing and Communication Antenna Design for 6G”, GRF project, HK$ 1,039,527., from 01/09/2023 to 31/08/2026. PI.
• “Investigation of Wideband Antenna-In-Package Designs for 6G Communications” funded by the Research Grants Council of the Hong Kong SAR, GRF project, HK$ 1,075,574., from 01/01/2023 to 31/12/2025, PI.
• “Development and Industrialization of Low-Energy- Consumption, Compact Antennas for 4G & 5G Base Station”, funded by Innovative and Technology Commission, ITF project, HK$ 495,900 (ITF) + $500,000 (Sponsor). = HK$ 995,900., from 01/03/2022 to 31/08/2023, PI.
• “Investigation of Terahertz Antenna Designs for 6G Communications”, funded by the Research Grants Council of the Hong Kong SAR, GRF project, HK$ 838,393., from 01/01/2022 to 31/12/2024, PI.
• “重2021089 基于5G移动终端设备的天线封装关键技术研发Research and Development of Key Technology of Antenna-in-Package for 5G Mobile Terminal Equipment”, funded by Science and Technology Innovation Commission of Shenzhen Municipality, Technology Research Project of Shenzhen City, (Total grant = RMB 2,000,000 for three parties, CityUSRI received = RMB 600,000), from 07/06/2021 to 03/06/2023, PI.
• “用于毫米波和太赫兹无线通信的波束可重构天线的研发及产业化Development and Industrialization of Beam Reconfigurable Antenna for Millimeter Wave and Terahertz Wireless Communication”, funded by Suzhou Science and Technology Bureau, RMB 375,000., from 01/12/2021 to 01/12/2022, PI.
• “基于相变材料的6G太赫兹波束可重构天线研究”, funded by National Natural Science Foundation Committee Projects, NSFC, RMB 560,000., from 01/01/2021 to 31/12/2024, PI.
• “5G毫米波相控天線陣列關鍵技術的合作研發Investigation on 5G Millimeter Wave Phased Arrays”, funded by 2020 Jiangsu Science and Technology Department, HK$300,000., from 09/10/2020 to 31/05/2023, PI.
• “High-Resolution Antenna Measurement System with Robotic Arms for Millimeter-wave Frequencies”, funded by the Research Grants Council of the Hong Kong SAR, CRF project, HK$ 2,051,966 (RGC) + 2,051,966 (Internal) = 4,103,932., from 01/03/2020 to 28/02/2023, PC.
• “毫米波寬帶及⼩型化天線技術合作項⽬ Design of wideband and miniaturized antennas for millimetre-wave communications”, funded by Huawei Technology Ltd., Project: HF2019055086, HK$ 2,070,000., from 09/12/2019 to 08/06/2021. PI.
• “雙波束矩形賦形場館天線研發與產業化” 2018年廣州開發區國際科技合作項目funded by广州开发区科技创新局RMB 300,000, from 01/01/2019 to 31/12/2021, PI.
• “Investigation of Wideband and High-Gain Planar Millimeter-wave Antennas”, funded by the Research Grants Council of the Hong Kong SAR, GRF project, HK$ 499,000.,from 01/09/2018 to 31/08/2021, PI.
• “面向5G高速通信的新型毫米波天线关键技术研究Research on Key Technologies of Novel Millimeter Wave Antennas for 5G High Speed Communication”, funded by Science and Technology Innovation Commission of Shenzhen Municipality, Fundamental Research Program of Shenzhen City, RMB 300,000., 03/04/2018 to 31/10/2020, PI.
• “兼具容量和覆蓋的超寬頻混合多波束基站天線研究與產業化”, funded by 广州开发区科技创新局, RMB 300,000, from 01/01/2018 to 31/12/2020, PI.
• “Characterization of Antenna Array”, funded by LSCM, ConRes-RO project, HK$ 140,000., from 01/03/2017 to 28/02/2018, PI.
• “A Terahertz Integrated High-Power CMOS Radiator with Distributed Antenna”, funded by the Research Grants Council of the Hong Kong SAR, GRF Project, HK$ 675,647. From 01/01/2017 to 31/12/2019. (Transferred from Prof. Xue Quan)
• “TD-LTE Small Dielectric-Resonator Based Station Antennas Development and Industrialization”, the Grant of National Science and Technology Major Project (國家重點項目) funded by Ministry of Industry and Information Technology of the People’s Republic of China. Total funded amount of the project is RMB$ 9,660,600. (~HK$ 11,496,000.) from 01/01/2016 to 30/06/2019. CityU received RMB$ 966,600. (~HK$ 1,149,600.), PI.
• “Investigation of Millimeter-wave Antennas for the 5th Generation Mobile Communications”, funded by the Research Grants Council of the Hong Kong SAR, GRF project, HK$ 696,020.,from 01/01/2016 to 31/12/2018, PI.
• “Research of millimeter-wave antenna for body centric network”, funded by Fundamental Research Program of Shenzhen City, RMB $300,000., from 31/07/2014 to 30/07/2016, PI.
• “Emerging transmitting antenna for implant communications”, funded by the Research Grants Council of the Hong Kong SAR, GRF(ECS) Project, HKD $500, 000., 01/01/2014 to 31/12/2016, PI.
• “Subsidy for Research Students”, funded by Shenzhen Virtual University Park, RMB $50,000., from 19/12/2013 to 31/12/2014, PI.
• “Study of small antenna design for emerging mobile communications”, funded by Fundamental Research Program of Shenzhen City, RMB $200,000. , from 02/09/2012 to 01/09/2014, PI.
• “Advanced Antenna Technology for a Smart World”, AoE Project, HK$69,190,000., from 01/09/2023 to 31/08/2028. Co-PI.
• “An Enabling Technology for 6G Wireless Communications”, CRF project, HK$ 8,330,000., from 01/04/2023 to 31/05/2026. Co-PI.
• “粵港大數據圖像和通信應用聯合實驗室The Greater Bay Area Joint Laboratory of Big Data Imaging and Communications”, funded by Department of Science and Technology of Guangdong Province 广东省科学技术厅-2020年度粤港澳联合实验室建设, (Total grant = RMB 5,000,000. for three parties, City received = RMB 1,000,000), from 01/07/2020 to 30/06/2023, Co-I.
• “Active Phased Array for Navigation, Surveillance and SatCom”, funded by Innovative and Technology Commission, ITF project, HK$ 7,500,000., from 01/08/2021 to 31/07/2024, Co-I.
• “A Compact System for Terahertz Imaging and Spectroscopy” funded by the Research Grants Council of the Hong Kong SAR, Theme-Based Research Scheme, HK$ 28,000,000., from 01/01/2017 to 31/12/2021, Co-I.
• “Research and optimization of wireless sensor network positioning technology”, funded by Fundamental Research Program of Shenzhen City, RMB 500,000. , from 23/05/2012 to 22/05/2014, Co-I.
• “Remote monitoring and management system of entry-exit animal and entry to carry passengers based on RFID, GPS, and GIS technologies”, funded by Tianjin Entry-Exit Inspection and Quarantine Bureau, RMB150,000., from 01/11/2011 to 31/05/2015, Co-I.

Keynote Talks

• “A New Wideband Millimeter-wave Open Slot Antenna”, 2020 IEEE Asia-Pacific Conference on Antennas and Propagation (APCAP), Virtual Conference, Xiamen, 6 Aug., 2020, China
• “A New Actively-Reconfigurable Technology for High-Frequency Devices and Antennas”, 2019 IEEE International Workshop on Electromagnetics (iWEM), Shandong, 18-20 Sep. 2019, China

Invited Talks

• “Diversity of Functional Material-based Coding Metasurface in Terahertz Applications” Marina Forum 2024 on Metantennas & Antennas + AI, 4-7 March 2024, Singapore.
• “Bandwidth Enhancement for a Millimeter-wave Dielectric Resonator Antenna” 2023 IEEE-APS Topical Conference on Antennas and Propagation in Wireless Communications (APWC), Venice, Italy, 09-13 October 2023, pp 39-41, (ISBN: 979-8-3503-2060-2,979-8-3503-2061-9).
• “Multi-Functional Cavity for Transmissive, Reflective, and Directive Beam Controls” 2023 Asia-Pacific Conference on Antennas and Propagation (APCAP), Guangzhou, China, 21 Nov 2023.
• “Functional Metamaterial Design for Metasurfaces with Radiation Beam Manipulations” 76th Joint Conference of Electrical, Electronics and Information Engineers Conference (JCEEE), Kumamoto, Japan, 7 - 8 Sep 2023.
• “Wideband Terahertz Metasurfaces with Beam Manipulations”, 17th European Conference on Antenna and propagation (EuCAP 2023), Fortezza da Basso, Florence, Italy, 26 - 31 Mar 2023.
• “Multi-band Dipole Antenna by Multi-mode Excitation for Massive Connections of IoT” 2022 IEEE-APS Topical Conference on Antennas and Propagation in Wireless Communications (APWC), Stellenbosch University and Politecnico di Torino, Hybrid, Cape Town, South Africa, 5 - 9 Sept 2022.
• “Beam-Reconfigurable Terahertz Metasurface with Optical Activations” GSMM 2022 - 14th Global Symposium on Millimeter-Waves and Terahertz, Seoul, Korea, Republic of, 18 - 20 May 2022.
• “Functional-Material Based Millimeter-wave and Terahertz Devices” 2021 Hauwei High-Frequency, High-Speed, and PI Forum, Songshan Lake, Dongguan, China, 9 - 10 Jun. 2022.
• “A Wideband Magneto-Electric Dipole Transmitarray for Linear to Circular Polarzation Conversion” 2022 16th European Conference on Antennas and Propagation (EuCAP), IFEMA Palacio Municipal, Madrid, Spain, 27 Mar - 01 Apr 2022.
• “New levels of Wireless in B5G and 6G” Digital Entertainment Leadership Forum (DELF) 2021, Hong Kong, 10 Dec 2021.
• “Beam Manipulations of Reconfigurable Metasurfaces for Terahertz” ISAPE 2021 - 2021 13th International Symposium on Antennas, Propagation and EM Theory, 1 - 4 Dec 2021.
• “Development of Pillbox-Distributed-Fed Antenna Arrays for Millimeter-Wave Applications” 2021 International Conference on Microwave and Millimeter Wave Technology (ICMMT 2021), Nanjing, China, 23 - 26 May 2021.
• “Directive Beam Radiation by A Fresnel Zone Plate Integrated Partially Reflective Surface for Millimeter-wave applications” 2020 European Conference on Antennas and Propagation (EuCAP), Copenhagen, Denmark, 15 - 20 Mar 2020.
• “A Fabry-Pérot Cavity Antenna for Millimeter-Wave Application” 2019 Cross Strait Quad-Regional Radio Science and Wireless Technology Conference (CSQRWC), Taiyuan, China, 18 - 19 Jul 2019.
• “Low-Profile Magnetoelectric Dipole Antenna with Dual Complementary Sources” 2018 8th IEEE-APS Topical Conference on Antennas and Propagation in Wireless Communications (APWC), Cartagena de Indias, Colombia, 10 - 14 Sept 2018.
• “Pattern reconfigurable antenna using a functional material for MMW application” 2018 IEEE Conference on Antenna Measurements and Applications (CAMA), Vasteras, Sweden, 3 - 6 Sept 2018.
• “3D Printed Broadband Dielectric Lens Based on Subwavelength Metamaterial” ISAP 2018 - 2018 International Symposium on Antennas and Propagation, KIEES, Paradise Hotel Busan, Busan, Korea, Republic of, 23 - 26 Oct 2018.
• “Polarization Reconfigurable Antenna with Beam Steering Performance” 2018 IEEE International Conference on RFID Technology & Application (IEEE RFID-TA 2018), Macao, China, 26-28 Sept 2018.
• “Wideband CP Polarization and Pattern Reconfigurable Antennas” 2018 IEEE International Conference on Computational Electromagnetics (ICCEM), 26 - 28 Mar 2018, Chengdu, China.
• “Pattern reconfigurable techniques for LP and CP antennas with the broadside and conical beams” 2017 International Symposium on Antennas and Propagation, 30 Oct - 2 Nov 2017, Phuket, Thailand.
• “A Wideband Millimeter-Wave CP Antenna with Gain Enhancement” 2017 Sixth Asia-Pacific Conference on Antennas and Propagation (APCAP), 16 - 19 Oct 2017, Xian, China.
• “Polarization reconfigurable multi-slot antenna for body-centric wireless communication system” 2016 IEEE International Workshop on Electromagnetics (iWEM), 16 - 18 May 2016, Nanjing, China.
• “Reconfigurable multi-slot antenna for bio-medical applications” 2016 European Conference on Antennas and Propagation, 10 - 15 Apr 2016, Davos, Switzerland.
• “A polarization reconfigurable aperture-fed patch antenna array” 2016 IEEE International Conference on Computational Electromagnetics (ICCEM), 23 - 25 Feb 2016, Guangzhou, China.
• “Reconfigurable Antenna Elements for Recent Wireless Communications” 2015 IEEE International Workshop on Electromagnetic Theory, Modelling, and Simulations, 3 - 5 Jun, Chengdu, China.
• “Circularly-polarized conical-beam patch antenna with wide bandwidth and polarization diversity” International Symposium on Antennas and Propagation, Kaohsiung, Taiwan, 5 Dec 2014.
• “3D meandering probe fed circularly-polarized patch antenna” 2013 National Conference on Antenna, Guangzhou, China, Nov 2013.
• “Modern Antenna Design for Wireless Communications: Challenges and Perspectives” University of Electronic Science and Technology of China (UESTC), Chengdu, China, hosted by Professor FAN Yong, Dean of the School of UESTC, 13 Mar 2013.
• “Printed antennas for millimeter-wave applications”, International Workshop on Antenna Technology, iWAT, Karlsruhe, Germany, 6 Mar, 2013.

SEMINARS

• “Antenna: Beyond Communications and Innovating into the Future”, Staff Development Day for Secondary School, City University of Hong Kong, 29 Aug 2024. (Hosted by OVPCE)
• “Functional-Material Integrated High-Frequency Devices for Millimeter-wave and Terahertz Applications”, Bejing Jiaotong University, 22 Aug 2023. (Hosted by Professor Yujian Li, School of Electronic and Information Engineering).
• “Functional-Material Integrated High-Frequency Devices for Millimeter-wave and Terahertz Applications”, Shenzhen University, 10 Aug 2023. (Hosted by Professor Zhe Chen).
• “Multi-Functional Cavity for Transmissive, Reflective, and Directive Beam Controls”, 28 June 2024, Sun Yat Sen University, Guangzhou, China (Hosted by Professor Shaoyong ZHANG, School of Electronics and Information Technology/ School of Microelectronics).
• “Functional-Material Integrated High-Frequency Devices for Millimeter-wave and Terahertz Applications”, 6 Sep 2023, Kumamoto University, Japan. (Host by Professor Takeshi Fukusako, Department of Computer Science & Electrical Engineering, Kumamoto University).
• “Functional-Material Integrated High-Frequency Devices for Millimeter-wave and Terahertz Applications”, 14 Apr 2023, South China University of Technology, Guangzhou, China. (Hosted by Prof. Xiuyin ZHANG, School of Electronic and Information Engineering, SCUT).
• “Functional-Material Integrated High-Frequency Devices for Millimeter-wave and Terahertz Applications”, 13 Apr 2023, Sun Yat-Sen University, Guangzhou, China. (Hosted by Prof. Shaoyong ZHANG, School of Electronics and Information Technology/ School of Microelectronics).
• “Functional-Material Based Millimeter-wave and Terahertz Devices”, 9 June 2022, Huawei, China, (Hosted by Dr. O Li, Huawei).
• “Wideband Circularly-polarized Millimeter-Wave Antennas”, Huazhong University of Science and Techology, 22 Mar 2018. (Hosted by Professor Xiaojun Hei, School of Electronic Information and Communications, Huazhong University of Science and Technology)
• “Wideband Circularly-Polarized Millimeter-Wave Antennas”, by Hang WONG, Harbin Institute of Technology, 20 Jun 2017. (Hosted by Prof. Qun Wu School of Electronics and Information Technology, Harbin Institute of Technology).
• “Realization of millimeter-wave antennas by 3D printing technology”, by Hang WONG, Beijing Jiaotong University, 08 Aug 2016. (Hosted by Prof. Yujian Li, Institute of Lightwave Technology, Beijing Jiaotong University).
• “Reconfigurable antennas for body-centric wireless communications” by Hang WONG, 11 May 2016, Sun Yat-Sen University, Guangzhou, China. (Hosted by Prof. Shaoyong ZHENG, School of Electronics and Information Technology, SYSU).
• “Magic of Electromagnetic Waves” by Hang WONG, 28 April 2016, City University of Hong Kong. (One of EE school talks for the local secondary school students).
• “Reconfigurable antennas for body-centric wireless communications”, by Hang WONG, 22 Feb 2016, South China University of Technology, Guangzhou, China. (Hosted by Prof. Xiuyin ZHANG, School of Electronic and Information Engineering, SCUT).
• “Reconfigurable Antennas: Dance of E&M Dipoles”, by Hang WONG, IEEE Seminar, 12 June 2015, University of Electronic Science and Technology of China. (Hosted by Prof. HU Jun, School of Electronic Engineering, UESTC).
• “Reconfigurable Receiving Antennas for Wireless Communications”, by Hang WONG, 28 May 2015, South China University of Technology, China. (Hosted by Prof. ZHANG Xiuyin, School of Electroinc and Information Engineering, SCUT).
• “Applications of Electromagnetics in Daily Life”, by Hang WONG, 31 March 2015, University of Macau, Macau, (Hosted by Prof. MOK Greta, Department of ECE, MU).
• “Reconfigurable Receiving Antennas for Mobile Satellite Communications”, by Hang WONG, 24 March 2015, University of Electronic Science and Technology of China. (Hosted by Prof. QU Shiwei, School of Electronic Engineering, UESTC).
• “Emerging Millimeter-wave Antenna Design”, by Hang WONG, University of College London, UK, 13 June 2014. (Hosted by Prof. Hugh Griffiths, Department of EEE, UCL.)
• “Emerging Millimeter-wave Antenna Design”, by Hang WONG, Queen Mary University of London, UK, 11 June 2014. (Hosted by Prof. Yang Hao, School of EE & CS, QMUL.)
• “Modern Small Antenna Design for Wireless Communications”, by Hang WONG, IEEE Seminar, University of Waterloo, Canada, 26 June 2013. (Hosted by Prof. Sujeet K. Chaudhuri, Department of ECE, UWaterloo.)
• “Modern Antenna Design for Wireless Communications: Challenges and Perspectives”, by Hang Wong, Qualcomm Atheros, 1700 Technology Drive, San Jose, CA, USA, 30 May 2012. (Industrial Seminar, hosted by IEEE Circuits and Systems Society, Santa Clara Valley Chapter)
• “Wideband Antenna Designs with Multi-pole Exposition for Pattern and Polarization Diversities” by Hang Wong, Ruckus Wireless Ltd., 880 West Maude Avenue, Sunnyvale, CA, USA, 26 Oct 2011. (Industrial Seminar)

Patents

• H. Wong and B. Xiao, “Ultra-Broadband Loop Antenna for Wireless Communication and Energy Transceiver”, App. no. US patent 18/409986, 11 Jan 2024.
• K. T. Lo, L. C. Ng, K. K. So, and H. Wong, “Painting Antenna and Antenna-Integrated Article”, App. no. US patent 18/735575, 6 Jan 2024.
• W. J. Sun, and H. Wong, “Design of (circular-polarization) ceramic patch antenna with low-profile and wideband for mobile device”, App. No. US patent 63/598,581, 14 Nov 2023.
• W. J. Sun, and H. Wong, “用於通感一體化的介質天線”, CN 202311075217.4, 25 Aug 2023.
• K. T. Lo, L. C. Ng, K. K. So, and H. Wong, “Antenna and Antenna-Integrated Article”, App. no. US patent 63/511713, 3 Jul. 2023.
• W. J. Sun, and H. Wong, “Dielectric Antennas for Integrated Sensing and Communications”, App. no. US patent 18/317209, 15 May 2023.
• Q. Y. Guo, and H. Wong, “An Open-Aperture Waveguide Fed Slot Antenna”, Patent no. US11,611,148, 21 Mar. 2023.
• C. H. Chan, H. W. Lai, K. M. Luk, K. K. So, H. Wong, “雙極化⾼增益及寬帶互補天綫”, Patent no. ZL2015104542846, China, 21 Dec. 2021.
• Q. Guo and H. Wong, “基於連通波導的縫隙線性陣列天線、無線通訊設備及系統”, pat. no. CN 202110464938.9, 28 Apr. 2021.
• H. Wong, and X. Yi, “Waveguide Fed Open Slot Antenna”, no. US10854991, US Patent, 01 Dec 2020.
• C. L. Mak, H. W. Lai, K. M. Mak, K. K. So, H. Wong, “Antenna for Use in Electronic Communication Systems:”, pat. no. US10862220B2, 08 Dec. 2020.
• K. B. Ng, C. K. Leung, M. Lu, H. Wong, and C. S. Yu, “Systems, apparatus, and methods to improve antenna performance in electronic devices”, pat. no. US 15/831,374, 28 Mar. 2019.
• H. Wong, H. W. Lai, Q. Xue and X. Gao, “雙極化天線裝置”, pat. no.: ZL201410394725.3, China, 02 November 2018.
• H. Wong, K. K. So, and X. Gao, “微帶天線”, app. no: ZL201410394702.2, 05 Jan. 2018.
• K. N. Yung, P. W. Chan, H. Wong, and W. Q. Che, “Dielectric Loaded Elliptical Helix Antenna“, pat. no. US 9,722,297, 01 Aug. 2017.
• H. Wong and K. X. Wang, “⼀種圓極化天線”, app. no.: CN 201610671504.5, Aug. 2016.
• H. Wong and K. X. Wang, “⼀種圓極化天線”, app. no.: CN 201610674235.8, Aug. 2016.
• H. Wong and X. Yi, “⼀種圓極化可重構四臂螺旋天線”, app. No.: CN 201610913617.1,Nov. 2016.
• K. K. So, H. W. Lai, H. Wong, C. H. Chan and K. M. Luk, “Dual polarized high gain and wideband complementary antenna”, app. No: US 2016/0226156 A1, the United States, Aug. 2016.
• K. K. So, H. W. Lai, and H. Wong, “Dual Polarized High Gain and Wideband Complementary Antenna”, app. no.: CN 201510454284, Jul. 2015.
• C. H. Chan, H. Wong, H. W. Lai, K. K. So, K. M. Luk and Q. Xue, “High Gain and Wideband Complementary Antenna”, app. no.: US 20140071006 A1, Mar. 2014.
• E. K. N. Yung, P. W. Chan, and H. Wong, “Unidirectional antenna comprising a dipole and a loop”, pat. no: US 8,410,982, the United States, Apr. 2013.
• C. H. Chan, H. Wong, H. W. Lai, K. K. So, K. M. Luk and Q. Xue, “High Gain and Wideband Complementary Antenna”, app. no.: CN 201210501087, Nov. 2012.
• H. Wong, K. M. Luk, Q. Xue and C. H. Chan, “Folded Dipole Antenna”, app. no.: US20090051614, the United States.
• C. H. Chin, Q. Xue, H. Wong and X. Y. Zhang, “Wideband Patch Antenna”, app. no.: US20090146883, the United States.
• H. Wong, K. M. Luk, Q. Xue and C. H. Chan, “Folded Dipole Antenna”, app. no.: CN200810110006, China.
• K. M. Luk and H. Wong, “Complementary Wideband Antenna”, app. no: CN200610144463, China.
• K. L. Yung, P. Y. Lau and H. Wong, “Wideband Patch Antenna”, app. no.: CN200610139681.5, China.
• H. Wong, M. L. Wong, K. M. Luk, Q. Xue and C. H. Chan, “An integrated microstrip antenna for mobile satellite communications”, pat. no.: ZL2005200625894, China.
• K. M. Luk, C.L. Mak and H. Wong, “A twin-L-probe coupled patch antenna with high gain and wide band characteristics”, pat. no.: ZL200410042927.8, China.
• K. L. Yung, P.Y. Lau and H. Wong, “An accordion shape axial mode helical antenna”, (US patent, pending).
• K. M. Luk and H. Wong, “Complementary Wideband Antenna”, pat. no: US7843389B2, the United States.
• H. Wong, K. M. Luk, Q. Xue and C. H. Chan, “Stacked Loop Antenna”, pat. no.: US7456798B2, the United States.
• K. M. Luk, H. Wong, K. L. Lau, H. M. Men and L. Wang, “Broadband Base Station Antenna with Four Probes Feed”, pat. no.: ZL02255910.8, China.
• H. Wong, K. M. Luk, Q. Xue and C. H. Chan, “Stacked Loop Antenna”, pat. no.: CN 101098045, China.

Publications Show All Publications Show Prominent Publications

External Services

Media Coverage

• 2023-03-31, 【城大着重發展多項天線技術 推動6G無線通訊新突破】 (Master-Insight (灼見名家))
• 2022-01-11 【備戰6G時代】城大國家重點實驗室 (HKET)
• 2021-04-07 【灣區聯合實驗室】大數據如洪流 粵港擴水管拓6G】 (Wenweipo (文匯報))
• 2020-09-10 【嶄新通信科研: 6G通信可重構超表面的幅射操縱技術】 (YouTube – EE CityU)
• 2019-04-09 【这一次的比亚迪不造车 玩的是比亚迪电子技术】 (BYD Press Conf – New Electronics 比亞迪新電子技術發佈會)
• 2019-05-14 【5G降臨 萬物互聯 】 (ChuHaiNews (珠海新聞))
• 2016-12-28 【城大研超輕天線迎5G】 (HKET)
• 2012-02-03 【香港有科研　也有出頭天】 (Recruit Magazine)