冯波涛

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永利集团 冯波涛 简历

(更新至2023.09.01)

https://xueshu.baidu.com/scholarID/CN-B284LFIJ

https://scholar.google.com/citations?hl=zh-TW&user=mCnsMnAAAAAJ&view_op=list_works&sortby=pubdate

实验室:永利集团金工坊307-1; E-mail: fengbotao@szu.edu.cn Tel: 13691892802


冯波涛,工学博士、高级工程师、高级研究员、客座教授、IEEE Senior Member、硕士研究生导师、留学博士合作导师、博士后合作导师、斯坦福大学“全球前2%顶尖科学家”,永利集团无线通信与天线传播实验室主任,深圳市博达盛科技有限公司/深圳市涛必达科技有限公司董事长。其兼任教育部学位与研究生教育中心、广东省信息通信技术人才高级职称评审委员会、广东省/浙江省自然科学基金委员会、广东省数字政府专家资源池、深圳市科技专家库、深圳市科技创新委员会专家,担任IEEE/IET、Elsevier、Wiley、Springer等学术机构的信息通信、天线传播、电磁兼容方向的多个国际知名期刊和学术会议的大会/分会主席、技术委员会主席、客座主编及审稿人。

冯博士曾就职于世界500强企业NOKIA、中国联通,负责手机、基站、室内分布系统及移动网络的研发、建设、运维和优化工作,具有丰富的科研及工程经验,并获得“年度进步最快干部”、“移动通信技术创新专家”等奖项。

目前其创建的“无线通信与天线传播实验室”科研团队(射频异质异构集成全国重点实验室成员)有50余人,包括教授4名,副教授3名,博士后1名,博士5名,硕士8名,本科9名,广东省海外特聘名师1名,外籍合作教授3名,资深工程师3名,研究助理1名等。实验室设备齐全(拥有Sub-6 GHz、毫米波、Sub-THz天线研发/制备/测试三大实验室,配备高端服务器阵列/高频VNA/无源&有源&整机天线自动化测试系统)。科研团队与国内外多所名校、企业建立了合作项目、战略伙伴、联合实验室、股份公司关系,产学研成果转化率显著,支持了多家企业技术攻关与转型升级。当前,团队主要研究方向为5G/6G先进天线技术,主持省市级科研基金及企业研发项目等100余项,在国内外知名学术期刊/会议发表论文170余篇,其中SCI期刊50余篇、EI会议论文100余篇,中文期刊10余篇,申请技术专利80余项且全部应用于产业,高新技术转化产值超过10亿元,广泛应用于电信运营商与家用通信产品。

Biography: Botao Feng (Senior Member, IEEE) was born in Guangdong, China, in 1980. He received the B.S. and M.S. degrees in communication engineering, and signal and information processing from the Chongqing University of Posts and Telecommunications (CQUPT), Chongqing, China, in 2004 and 2009, respectively, and the Ph.D. degree in communication and information system from the Beijing University of Posts and Telecommunications (BUPT), Beijing, China, in 2015.

Dr. Feng joined Nokia Mobile Phones Ltd., Dongguan, China, as a Communication Engineer, in 2004. From 2009 to 2012, he served as a Senior Research Engineer and a Chief Executive in China United Network Communications Company Ltd., Guangzhou, Guangdong, China, where he won the Award of Breakout Star of the Year and the title of Technical Innovation Expert. He currently acts as the Head of the Shenzhen University Key Laboratory of Wireless Communication, Antennas and Propagation, which includes more than 50 research members and also is a founding member of the State Key Laboratory of Radio Frequency Heterogeneous Integration (Shenzhen University), and the President of Shenzhen Broad-Shine Technology Company Ltd., Shenzhen, China. In addition, he has been a Senior Research Fellow with the Energy Materials Telecommunications (EMT) Research Centre, Institut National De La Recherche Scientifique (INRS), Quebec City, QC, Canada, since 2020, and a Guest Professor with Huizhou University, Huizhou, China, since 2022. He and his research team members are currently conducting multiple projects on antenna development for 5G/6G communications, which are supported by natural science research funds and industrial cooperation research and development funds. His several antenna designs for 5G applications have been widely used by Chinese communication operators. It is estimated that the related total production value is approximately 1.3 billion Ren Min Bi (RMB). He has authored or coauthored more than 160 science citation index (SCI) and engineering index (EI) articles and holds more than 80 technical patents. His research interests include antennas and mobile communications.

Dr. Feng is a Senior Member of the IEEE Antennas and Propagation Society and the IEEE Vehicular Technology Society. Since 2017, he has obtained the award of the Outstanding Instructor of the First Prize in the National Graduate Electronic Contest and the Tencent Outstanding Teacher Award. Recently, he has been selected as one of “Stanford University World’s Top 2% Scientists.” He also serves as a Regular Peer Reviewer, a Technical Program Committee Chair, a General Chair, and an Editor of IEEE/IET, Elsevier, Wiley, and Springer journals and conferences on microwave technique and antenna development. In addition, he acts concurrently as a Senior Expert of Degree and Graduate Education Center of the Chinese Ministry of Education, Natural Science Foundation Committee of Guangdong Province, Digital Government Expert Resource Pool of Guangdong Province, Information and Communication Technologies Senior Title Evaluation Committee of Guangdong Province, Science and Technology Expert Database of Shenzhen City, and Science and Technology Innovation Committee of Shenzhen City, etc..


一、教育与工作经历

教育经历:

[1]2012.09-2015.07,北京邮电大学,通信与信息系统,博士,导师:李书芳;

期间与香港科技大学霍英东研究院联合培养,获得北京市优秀毕业生,北京邮电大学优秀毕业论文等荣誉。

[2]2006.09-2009.06,重庆邮电大学,信号与信息处理,硕士,导师:万晓榆、黄勇;

再度获得重庆邮电大学“百佳先进个人”毕业生称号。

[3]2000.09-2004.06,重庆邮电大学,通信工程,学士,导师:蒋莹、伍安春;

首次获得重庆邮电大学“百佳先进个人”毕业生称号。

工作经历:

全职(Full time):

[1]2015.07-至今,永利集团,永利集团,高级工程师,研究生导师、留学博士生合作导师、博士后合作导师、无线通信与天线传播实验室主任、电子科学与技术系副主任(2019.07-2022.06);

获得“腾讯优秀教师”、“中国研究生电子竞赛优秀指导教师”、“中国大学生创新创业大赛优秀指导老师”等荣誉。

[2]2009.07-2012.07,中国联通,广东省公司,工程师,监管事务部、移动网络运维部主任;

获得“移动通信创新专家”、“最快进步干部”等称号。

[3]2004.07-2006.08,NOKIA东莞公司,生产测试部,助理工程师;

负责新型手机测试设计及投产,如NOKIA N7新系列产品功能性能测试与生产质量优化。

兼职(Part time):

[4]2022.05-至今,惠州学院,计算机科学与工程学院,客座教授。

[5]2021.04-至今,联合知名网络终端公司、深大科技基金,创建深圳市博达盛科技有限公司,并担任董事长。

[6]2020.02-至今,加拿大国立科研院,能源材料通信研究中心,高级研究员,合作导师 (Senior Research Fellow, Energy Materials Telecommunications (EMT) Research Centre, Institut national de la recherche scientifique (INRS))。

二、主要研究方向与招生方向

研究方向:

[1]天线设计与电波传播;

[2]移动通信网络。

招生方向:

[1]博士后:电子、通信、计算机网络;

[2]留学博士生: 光电电子、通信;

[3]硕士研究生:085402通信工程(含宽带网络、移动通信等)(专业学位);081000 信息与通信工程 (学术学位);

[4]深大电信学院优秀本科实习生(主要面向大一、大二)。

毕业生去向:

[1]约50%:高水平大学读博:

Queen Mary University of London, University of Technology, Sydney, National University of Singapore, Nanyang Technological University, Singapore, French Research Center for Communications, Hong Kong University of Science and Technology, City University of Hong Kong, 东南大学, 北京邮电大学, 电子科技大学, 华南理工大学…

[2]约50%:一线公司就业:

华为, 小米, Oppo, Vivo, BYD, 清华紫光…

三、近几年主持的科研项目 (部分)

基金项目:

[1]广东省科技创新战略专项(海外名师)(批准号:粤财科教[2019]182号, 2019.12.-2020.12, 2万元)“基于特征模理论的5G 毫米波的高增益可重构天线研究”,主持,已结题;

[2]广东省教育厅高等公司产品改革项目(广东省“质量工程”项目)“基于先进天线设计的产学研结合人才培养机制创新研究”(2019.12.06-2023.2.21, 1万元),主持,已结题;

[3]广东省自然科学基金(批准号:2016A030310056,2016.06-2019.06,10万元)“基于多网协同通信的MIMO多频宽带电磁偶极子天线研究”,主持,已结题;

[4]广东省教育厅基金(批准号:2015KTSCX123,2016.01-2018.12,10万元) “基于多网融合通信的MIMO多频宽带电磁偶极子天线研究”,主持,已结题;

[5]广东省海外名师项目基金(批准号:粤外专函[2016]112号, 2016.8.31-2018.8.31, 2.62万元)“基于5G毫米波天线系统研究”,主持,已结题;

[6]深圳市科创委国际合作研究基金(批准号:GJHZ20180418190621167,2018.07-2021.07,50万元)“基于5G通信的超材料、可调宽覆盖面天线研究”,主持,已结题;

[7]深圳市科创委基础研究基金(批准号: JCYJ20190808145013172,2020.06-2023.05,30万元)“基于5G通信的多维度宽覆盖面天线的核心理论及关键技术研究”, 主持,已结题;

[8]深圳市科创委基础研究基金(批准号: JCYJ20160308100236349,2017.01-2018.12,30万元)“基于5G通信的新型平面印刷MIMO电磁偶极子天线研究”,主持,已结题;

[9]永利集团与台北科技大学学术合作专题研究基金(批准号: 2018002,2018.01-2018.12,10万元) “基于5G毫米波通信的低成本高增益可重构智能天线研究”,主持,已结题;

[10]永利集团教学改革自由探索项目(批准号:2019.09.01-2020.08.31, 1万元) ,“基于先进天线设计的产学研结合人才培养机制创新研究”,主持,已结题;

[11]永利集团青年教师科研启动基金(批准号:SZU2016021, 2016.6.1-2018.5.31, 6万元) “基于超材料表面的MIMO ME Dipole天线研究”,主持,已结题;

[12]永利集团-深圳市日海通讯技术有限公司校外基地项目(批准号:315/00003103,2017.06-2018.06, 6万元),主持,已结题;

[13]中国研究生电子设计竞赛项目(批准号:315/00003389,2017.06-2017.12, 1万元),“5G极化、波束可重构天线设计”,主持,已结题;

[14]国家自然基金青年项目,“基于子项共享技术的低功耗FIR滤波器设计方法研究”(批准号:61601301,2017.01.01-2019.12.31, 20万元),第二完成人,已结题;

[15]国家自然基金青年项目,“移动通信系统中信息与能量协同传输技术研究”(批准号:61401034,2015.01.01-2017.12.31, 22万元),第二完成人,已结题;

[16]山东省科学技术厅, 山东省重点研发项目, “适用于5G通信的超材料、可调宽覆盖面天线研究2019GGX101059” (批准号:2019.01-2020.12, 15万元), 第二完成人,已结题;

[17]永利集团高水平大学经费第一期,123万,“微波与天线技术团队建设” ,2017年,主持,已结题;

[18]永利集团高水平实验室提升计划,55万,“微波与天线实验室建设” , 2019年,主持,已结题;

[19]永利集团高水平大学二期建设专业认证培育项目,10万,“电子科学与技术专业工程认证”,2019-2021年,主持,已结题;

[20]永利集团高水平大学二期建设项目(860000001020817),电子信息与工程学院教学成果培育项目,10万,2019年,主持,已结题;

[21]永利集团高水平大学二期建设项目(860000001020936),本科专业内涵提升项目-电子科学与技术,20万,2020年,主持,已结题;

[22]“广东省高校成果路演大赛”小组赛电子信息组“优胜奖”,2020年度,主持,已结题;

[23]中央财政支持地方高校专项永利集团生创新训练项目大赛“5G CPE天线设计”(000030020104),2万,2021年,主持,已结题;

[24]永利集团“名师聚徒”项目,“5G/THz通信与先进天线设计”,项目编号18,1万,2020年,主持,已结题;

[25]高水平大学二期建设项目,“大规模可重构5G毫米波艺术天线阵列”,项目编号000001021996,1万,2021年,主持,已结题;

[26]永利集团“名师聚徒”项目,“面向6G通信的智能阵列天线研究与设计”,项目编号803-0000311617,1万,2022年,主持,已结题;

[27]2023年国家级大学生创新创业训练计划项目,“高性能美化蓝牙耳机天线”,项目编号2023105900071万,2023年,主持,在研;

企业项目:

[1]深圳市日海通讯技术有限公司预言研究项目(2017.06-2017.12), “5G低剖面基站天线关键技术”;

[2]斯凯威天线深圳有限公司研发项目(2017.06-2018.03), “双极化双宽频5G室内分布天线设计”;

[3]中国公安部第一研究所研发项目(2017.06-2018.06), “新型高安全度RFID天线设计”;

[4]深圳市锦鸿无线科技有限公司研发项目(2018.06-2018.12), “应用于5G通信的新型双圆极化高增益毫米波天线设计”;

[5]深圳光启超材料电磁调制技术重点实验室开放课题(2018.06-2019.06), “电小天线设计新思路: 5G低频宽带化电小天线关键技术研究”;

[6]富士康科技深圳有限公司研发项目(2018.04-2019.04), “5G Small Cell 低剖面双宽频可重构天线阵列设计”;

[7]深圳市电连技术股份有限公司研发项目(2018.09-2019.08), “应用于5G通信的高增益毫米波微基站天线设计”;

[8]深圳市中科无线技术有限公司研发项目(2019.04-2020.04),“5G通信的高增益室内分布天线设计”;

[9]昆山恩电开通信设备有限公司研发项目(2019.04-2020.04),“应用于第五代移动通信的大规模基站阵列天线”;

[10]深圳市南斗星科技有限公司研发项目(2019.11-2020.01),“应用于2G/3G/LTE/5G通信的室内分布系统壁挂阵列天线”;

[11]深圳市南斗星科技有限公司研发项目(2019.11-2020.01),“应用于2G/3G/LTE/5G通信的室内分布三极化系统吸顶天线”;

[12]深圳市南斗星科技有限公司研发项目(2020.03-2020.06),“应用于5G/6G通信的CPE天线”;

[13]深圳市南斗星科技有限公司研发项目(2020.03-2020.06),“应用于5G/WIFI6通信的天线”;

[14]东莞立讯精密工业有限公司研发项目(2020.01-2020.03),“应用于2G/LTE/5G LampSite通信的全向RRU天线”;

[15]上海德门信息科技有限公司研发项目(2020.06-2020.09),“一种应用于LTE/5G/GPS/BD/WIFI/Bluetooth车载盒子天线”;

[16]广东中元创新科技有限公司公司研发项目(2020.11-2022.11),“新一代移动通信天线产品(WFI/CPE/Microcell/Ceiling)”;

[17]深圳市南斗星科技有限公司研发项目(2021.08-2022.08),“先进6G天线研发”;

[18]佛山市佳昇通讯设备有限公司研发项目(2022.04-2022.07),“5.85-7.2GHz双极化90°和120°板型(扇形)天线”;

[19]佛山市佳昇通讯设备有限公司研发项目(2022.05-2022.07),“宽带蝴蝶结抛物面高增益天线”;

[20]深圳市飞鸿光电子有限公司研发项目(2023.01-2023.03),“高性能双频WiFi天线”;

[21]深圳市齐奥通信技术有限公司研发项目(2023.01-2023.12),“微型TWS耳机的蓝牙板载天线”;

[22]深圳市华云时空科技有限公司研发项目(2023.02-2023.6), “高精度定位阵列天线”;

[23]江苏域盾成鹫有限公司研发项目(2023.07-2023.11), “多功能大容量超远距离阵列天线”。

[24]东莞市优比电子有限公司研发项目(2023.07-2026.6), “5G多功能大容量阵列天线”;

[25]佛山市佳昇通讯设备有限公司研发项目(2023.08-2023.12),“非对称高增益毫米波阵列天线”;

[26]某军工项目(2023.08-2023.12),“潜艇紧凑型全频段高速低耦合MIMO天线”;

[27]百富某海外项目(2023.08-2023.12),“全金属封闭环境高增益WiFi天线”;

四、代表性论文 (数据来源于Scholar.google与中国知网, 按时间、中科院分区表升级版2022倒序)

SCI-Index Papers:

First Author:

[1]B. Feng, B. Yang, C. -Y. -D. Sim, L. Deng, Z. Zhou and X. Ding, "A Compact Vehicle-Mounted Garden-Themed Artistic Antenna With Isolation Improvement for 2G/3G/LTE/5G Sub-6-GHz/WiFi/Bluetooth Communications," in IEEE Transactions on Vehicular Technology, vol. 72, no. 4, pp. 4851-4862, April 2023. (中科院2区, Top 期刊)

[2]B. Feng, J. Lai, L. Li, C. -Y. -D. Sim, L. Deng and X. Ding, "A Dual-Polarized Shared-Aperture Antenna With Conical Radiation Patterns and High Gain for 5G Millimeter-Wave Ceiling Communications," in IEEE Transactions on Antennas and Propagation, vol. 71, no. 3, pp. 2278-2289, March 2023. (中科院2区, Top 期刊)

[3]B. Feng, H. Li, K. L. Chung, C. -Y. -D. Sim and L. Deng, "A Dual-Polarized Wideband Ceiling-Mount Antenna With Low Gain Variations and High Isolation for 5G Sub-6 GHz Applications," in IEEE Transactions on Antennas and Propagation, vol. 70, no. 9, pp. 8572-8577, Sept. 2022. (中科院2区, Top 期刊)

[4]B. Feng, J. Chen, K. L. Chung, L. Wang and Y. Li, "Dual-Polarized Filtering Magneto-Electric Dipole Antenna Arrays with High Radiation-Suppression Index for 5G New Radio n258 Operations," in IEEE Transactions on Antennas and Propagation, vol. 70, no. 4, pp. 3058-3063, April 2022. (中科院2区, Top 期刊)

[5]B. Feng, L. Li, K. L. Chung and Y. Li, "Wideband Widebeam Dual Circularly Polarized Magnetoelectric Dipole Antenna/Array with Meta-Columns Loading for 5G and Beyond," in IEEE Transactions on Antennas and Propagation, vol. 69, no. 1, pp. 219-228, Jan. 2021. (中科院2区, Top 期刊)

[6]B. Feng, J. Chen, S. Yin, C. -Y. -D. Sim and Z. Zhao, "A Tri-Polarized Antenna with Diverse Radiation Characteristics for 5G and V2X Communications," in IEEE Transactions on Vehicular Technology, vol. 69, no. 9, pp. 10115-10126, Sept. 2020. (中科院2区, Top 期刊)

[7]B. Feng, J. Lai, K. L. Chung, T. Chen, Y. Liu and C. Sim, "A Compact Wideband Circularly Polarized Magneto-Electric Dipole Antenna Array for 5G Millimeter-Wave Application," in IEEE Transactions on Antennas and Propagation, vol. 68, no. 9, pp. 6838-6843, Sept. 2020. (中科院2区, Top 期刊)

[8]B. Feng, X. He, J. Cheng, Q. Zeng and C. Sim, "A Low-Profile Differentially Fed Dual-Polarized Antenna with High Gain and Isolation for 5G Microcell Communications," in IEEE Transactions on Antennas and Propagation, vol. 68, no. 1, pp. 90-99, Jan. 2020. (中科院2区, Top 期刊)

[9]B. Feng, L. Li, J. Cheng and C. Sim, "A Dual-Band Dual-Polarized Stacked Microstrip Antenna with High-Isolation and Band-Notch Characteristics for 5G Microcell Communications," in IEEE Transactions on Antennas and Propagation, vol. 67, no. 7, pp. 4506-4516, July 2019. (中科院2区, Top 期刊)

[10]B. Feng, W. An, S. Yin, L. Deng and S. Li, "Dual-Wideband Complementary Antenna with a Dual-Layer Cross-ME-Dipole Structure for 2G/3G/LTE/WLAN Applications," in IEEE Antennas and Wireless Propagation Letters, vol. 14, pp. 626-629, 2015. (中科院2区, Top 期刊)

[11]B. Feng, Y. Tu, J. Chen, K. L. Chung, and S. Sun, “High-performance dual circularly-polarized antenna arrays using 3d printing for 5g millimetre-wave communications,” AEU-International Journal of Electronics and Communications, p. 153569, 2020. (中科院3区)

[12]B. Feng, Y. Tu, J. Chen, S. Yin and K. L. Chung, "Dual Linearly-Polarized Antenna Array with High Gain and High Isolation for 5G Millimeter-Wave Applications," in IEEE Access, vol. 8, pp. 82471-82480, 2020.doi: 10.1109/ACCESS.2020.2990494 (中科院3区)

[13]B. Feng, J. Lai and C. Sim, "A Building Block Assembly Dualband Dual-Polarized Antenna with Dual Wide Beamwidths for 5G Microcell Applications," in IEEE Access, vol. 8, pp. 123359-123368, 2020. (中科院3区)

[14]B. Feng, X. He, J. Cheng and C. Sim, "Dual-Wideband Dual-Polarized Metasurface Antenna Array for the 5G Millimeter Wave Communications Based on Characteristic Mode Theory," in IEEE Access, vol. 8, pp. 21589-21601, 2020. doi: 10.1109/ACCESS.2020.2968964. (中科院3区)

[15]B. Feng, C. Zhu, J. Cheng, C. Sim and X. Wen, "A Dual-Wideband Dual-Polarized Magneto-Electric Dipole Antenna with Dual Wide Beamwidths for 5G MIMO Microcell Applications," in IEEE Access, vol. 7, pp. 43346-43355, 2019. (中科院3区)

[16]B. Feng, K. L. Chung, J. Lai and Q. Zeng, "A Conformal Magneto-Electric Dipole Antenna with Wide H-Plane and Band-Notch Radiation Characteristics for Sub-6-GHz 5G Base-Station," in IEEE Access, vol. 7, pp. 17469-17479, 2019. (中科院3区)

[17]B. Feng, L. Li, Q. Zeng and C. Sim, "A Low-Profile Metamaterial Loaded Antenna Array with Anti-Interference and Polarization Reconfigurable Characteristics," in IEEE Access, vol. 6, pp. 35578-35589, 2018. (中科院3区)

[18]B. Feng, J. Lai, Q. Zeng and K. L. Chung, "A Dual-Wideband and High Gain Magneto-Electric Dipole Antenna and Its 3D MIMO System with Metasurface for 5G/WiMAX/WLAN/X-Band Applications," in IEEE Access, vol. 6, pp. 33387-33398, 2018. doi: 10.1109/ACCESS.2018.2848476. (中科院3区)

[19]B. Feng, Y. Tu, K. L. Chung and Q. Zeng, "A Beamwidth Reconfigurable Antenna Array with Triple Dual-Polarized Magneto-Electric Dipole Elements," in IEEE Access, vol. 6, pp. 36083-36091, 2018. (中科院3区)

[20]B. Feng, J. Chen and C. Sim, "Analysis of double-Xi-shaped millimeter-wave patch antenna backed by a high-order-mode cavity using characteristic mode design," in IET Microwaves, Antennas & Propagation, 2021, 15(8): 966-980. (中科院4区)

[21]B. Feng, et al. "A low-profile wideband dual-polarized antenna with gain enhancement, low gain variations, and low cross polarization for 5G indoor communications." International Journal of RF and Microwave Computer‐Aided Engineering (2020): e22253. (中科院4区)

[22]B. Feng, T. Luo, T. Zhou and C. Sim, " A Dual-Polarized Antenna with Low Cross Polarization, High Gain and Isolation for the 5G Array/MIMO Communications", International Journal of RF and Microwave Computer-Aided Engineering, (2020): e22278. (中科院4区)

[23]B. Feng, T. Luo, Q. Zeng and K. L. Chung, "Frequency reconfigurable antenna with triple linear polarisation and wide H-plane characteristic for future smart communications," in IET Microwaves, Antennas & Propagation, vol. 12, no. 15, pp. 2276-2284, 19 12 2018. (中科院4区)

[24]Feng B, Li L, Zeng Q, et al. A wideband antenna using metasurface for the 2G/3G/LTE/5G communications [J]. Microwave and Optical Technology Letters, 2018, 60(10): 2482-2487. (中科院4区)

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Co-Author:

[30]Chung K L, Chen L, Lai G, K. Zheng, H. Cui, B. Feng, "Three-element circularly polarized MIMO antenna with self-decoupled probing method for B5G-V2X communications, " Alexandria Engineering Journal, 2023, 70: 553-567. (中科院3区)

[31]X. He, L. Deng, B. Feng, K. L. Chung, L. Yin and L. Chen, "Angular Momentum Multiplexing via a Shared Aperture Patch Antenna," in IEEE Transactions on Antennas and Propagation, vol. 71, no. 7, pp. 5532-5541, July 2023. (中科院2区, Top 期刊)

[32]K.L. Chung, H. T. Wang, B. Feng, G. Lai, "Miniaturization of microwave planar circuits using composite microstrip/coplanar-waveguide transmission lines", Alexandria Engineering Journal 61.11 (2022): 8933-8942. (中科院3区)

[33]K. L. Chung, A. Cui, M. Ma, B. Feng and Y. Li, "Central-symmetry decoupling technique for circularly-polarized mimo system of tightly packed Chinese-character shaped patch antennas," in ACES Journal, vol. 36, no. 9, pp.1125-1131, 2021. (中科院4区)

[34]X He, Y Yang, L Deng, S Li and B Feng, "Multifunctional ultrathin reflective metasurface via polarization-decoupled phase for arbitrary circularly or elliptically polarized waves," Opt. Express, 29, 12736-12749, 2021. (中科院2区)

[35]X. He, L. Deng, Y. Yang, and B. Feng, "3D Printed Sub-Terahertz All-Dielectric Lens for Arbitrary Manipulation of Quasi-Nondiffractive Orbital Angular Momentum Waves." ACS Applied Materials & Interfaces, 13.17 (2021): 20770-20778. (中科院2区, Top 期刊)

[36]L. Wang, K. L. Chung, W. Zong and B. Feng*, "A Highly Sensitive Microwave Patch Sensor for Multidirectional Strain Sensing Based on Near Orthogonal Modes," in IEEE Access, vol. 9, pp. 24669-24681, 2021. (中科院3区)

[37]Y Li, M Wu, KL Chung and B Feng, "A Miniature Dual-band Wilkinson Power Divider Using Novel Planar Transmission Line." International Journal of RF and Microwave Computer-Aided Engineering 13 (2020), DOI:10.1002/mmce.22354. (中科院4区)

[38]KL Chung, M Guan, A Cui, B Feng and Y Li, "Determination of Dielectric Properties of Unknown Substrates Using Hybrid Approach." International Journal of RF and Microwave Computer-Aided Engineering 13 (2020), DOI:10.1002/mmce.22346. (中科院4区)

[39]KL Chung, X Yan, S Chaimool, B Feng and Y Li, "On the Surface Susceptibilities and Effective Parameters of Metasurfaces Composed of Isolated Metallic Unit-Cells." International Journal of RF and Microwave Computer-Aided Engineering 13 (2020), DOI:10.1002/mmce.22353. (中科院4区)

[40]KL Chung, A Cui and B Feng, "A Guo-shaped patch antenna for hidden WLAN access points." International Journal of RF and Microwave Computer-Aided Engineering 13 (2020), DOI:10.1002/mmce.22323. (中科院4区)

[41]M. Wang, Q. Zeng, L. Deng, B. Feng*, and P. Xu, “Multifunctional graphene metasurface to generate and steer vortex waves,” Nanoscale Research Letters, vol. 14, no. 1, p. 343, Nov 2019. [Online]. Available: https://doi.org/10.1186/s11671-019-3189-2. (中科院3区)

[42]Z. Zhao, J. Lai, B. Feng and C. Sim, "A Dual-Polarized Dual-Band Antenna with High Gain for 2G/3G/LTE Indoor Communications," in IEEE Access, vol. 6, pp. 61623-61632, 2018. (中科院3区)

[43]W. An, X. Wang, H. Fu, J. Ma, X. Huang and B. Feng, "Low-Profile Wideband Slot-Loaded Patch Antenna with Multiresonant Modes," in IEEE Antennas and Wireless Propagation Letters, vol. 17, no. 7, pp. 1309-1313, July 2018. (中科院2区, Top 期刊)

[44]W. An, Y. Li, H. Fu, J. Ma, W. Chen and B. Feng, "Low-Profile and Wideband Microstrip Antenna with Stable Gain for 5G Wireless Applications," in IEEE Antennas and Wireless Propagation Letters, vol. 17, no. 4, pp. 621-624, April 2018. (中科院2区, Top 期刊)

[45]Zhen Wang, Jianqing Li, M. Fang, Y. Li and Botao Feng, "A Reliable Routing Algorithm with Network Coding in Internet of Vehicles," in China Communications, vol. 14, no. 5, pp. 174-184, May 2017. (中科院3区)

[46]J. Zhu, S. Li, B. Feng, L. Deng and S. Yin, "Compact Dual-Polarized UWB Quasi-Self-Complementary MIMO/Diversity Antenna with Band-Rejection Capability," in IEEE Antennas and Wireless Propagation Letters, vol. 15, pp. 905-908, 2016. (中科院2区, Top 期刊)

[47]Zhu, Jianfeng, Botao Feng, Biao Peng, Li Deng, and Shufang Li. "Multiband printed mobile MIMO antenna for WWAN and LTE applications." Microwave and Optical Technology Letters 59, no. 6 (2017): 1446-1450. (中科院4区)

[48]Zhu, Jianfeng, Botao Feng, Li Deng, Biao Peng, and Shufang Li. "Coupled‐fed tri‐band MIMO mobile antenna for WWAN and LTE applications." Microwave and Optical Technology Letters 59, no. 2 (2017): 463-468. (中科院4区)

[49]Zhu, Jianfeng, Botao Feng, Biao Peng, Li Deng, and Shufang Li. "A dual notched band MIMO slot antenna system with Y‐shaped defected ground structure for UWB applications." Microwave and Optical Technology Letters 58, no. 3 (2016): 626-630. (中科院4区)

[50]Tang, Xihui, Botao Feng, and Yunliang Long. "The analysis of a wideband strip-helical antenna with 1.1 turns." International Journal of Antennas and Propagation 2016 (2016). (中科院4区)

[51]X. Tang, Y. He and B. Feng, "Design of a Wideband Circularly Polarized Strip-Helical Antenna with a Parasitic Patch," in IEEE Access, vol. 4, pp. 7728-7735, 2016. (中科院3区)

[52]Deng, Li, Weijun Hong, Botao Feng, Shufang Li, Jianfeng Zhu, and Peng Biao. "Alumina ceramic slot antenna for UHF RFID tag embedded in vehicles." Microwave and Optical Technology Letters 58, no. 5 (2016): 1150-1154. (中科院4区)

[53]Zhu, Jianfeng, Botao Feng, Biao Peng, Shufang Li, and Li Deng. "Compact CPW UWB diversity slot antenna with dual band‐notched characteristics." Microwave and Optical Technology Letters 58, no. 4 (2016): 989-994. (中科院4区)


EI-Index Conference Papers:

[1]W. Gu, B. Feng, X. Wang and X. Zou, "Research on Key Technologies of High Precision Millimeter Wave Radar Ranging System," 2023 6th World Conference on Computing and Communication Technologies (WCCCT), Chengdu, China, 2023, pp. 24-27.

[2]K. Zheng, J. He, K. L. Chung, G. Lai, Y. Li and B. Feng, "Miniaturization of Wilkinson Power Divider Using Zigzag Combination of Microstrip and CPW Lines," 2022 IEEE International Workshop on Electromagnetics: Applications and Student Innovation Competition (iWEM), Narashino, Japan, 2022, pp. 85-86.

[3]K. L. Chung, X. Cheng and B. Feng, "Radiation Suppression Index of Filtering Antennas," 2022 IEEE International Workshop on Electromagnetics: Applications and Student Innovation Competition (iWEM), Narashino, Japan, 2022, pp. 69-70.

[4]K. L. Chung, X. Cheng, J. Wen, H. Wang, B. Feng and G. Lai, "Measurement of Broadband Dielectric Properties of Textile Fabrics for Clothing Antennas," TENCON 2022 - 2022 IEEE Region 10 Conference (TENCON), Hong Kong, Hong Kong, 2022, pp. 1-3.

[5]R. Chen, B. Feng and X. Ding, "A Novel Design of Log-Periodic Koch Dipole Array (LPKDA) Antenna," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 822-823.

[6]A. Li, B. Feng and X. Ding, "A Double-Layer Wideband Transmitarray Antenna for 5G Millimeter Wave Applications," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 987-989.

[7]Z. Zhou, B. Feng and X. Ding, "Design of a Dielectric Lens Antenna with the Similar Shape of Half Maxwell Fish-Eye (HMFE)," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 818-819.

[8]X. Yang, B. Feng and X. Ding, "A Single-layer Reflectarray Antenna for Sub-THz Applications," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 844-845.

[9]L. Rao, B. Feng and X. Ding, "Design of a Dual-Polarized Dipole Antenna Element for 5G Base Stations," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 842-843.

[10]Z. Zhou, B. Feng and X. Ding, "Design of Microstrip-Based Power Combiner /Divider for 700MHz-960MHz Band," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 820-821.

[11]Y. Li, L. Deng, B. Feng and L. Yin, "Design Method of Dual Frequency Metasurface based on Neural Network," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 851-853.

[12]Y. Huang, Y. Sun, B. Feng and X. Ding, "An Offset-fed Orbital Angular Momentum Transmitarray Antenna for Millimeter Wave Communications," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 832-833.

[13]X. Ding, J. Wu and B. Feng, "Analysis and Design Strategy on the Older People's Use Vitality of Community Garden," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 995-997.

[14]W. Zha, B. Feng and X. Ding, "A Flat Wideband Transmitarray Antenna in D-Band," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 981-983.

[15]S. Qi, B. Feng and X. Ding, "A Ka-Band OAM Reflectarray Antenna Using Hexagonal Phoenix Elements," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 837-838.

[16]Y. Huang, Y. Sun, B. Feng and X. Ding, "A Multiple Wideband Microstrip Antenna Combiner for Indoor Distribution System," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 979-980.

[17]J. Chen, L. Deng, B. Feng and L. Yin, "A Dual-band and Dual-polarization Multiplexed Reflective Metasurface Unit Cell," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 849-850.

[18]S. Qi, B. Feng and X. Ding, "A Single-layer THz Wideband Reflectarray Antenna Using Snowflake Elements," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 839-841.

[19]R. Ke, B. Feng and X. Ding, "Yagi Antenna Based on Dual-Element Folded Dipole," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 826-828.

[20]D. Huang, B. Feng and X. Ding, "Design of Substrate Integrated Magneto-Electric Dipole Antenna for 5G Base Station," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 824-825.

[21]A. Li, B. Feng and X. Ding, "A Wideband Omnidirectional MIMO Antenna for WiFi-6E Applications," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 834-836.

[22]W. Zha, B. Feng and X. Ding, "Design of Mutliband Compact Planar Inverted-F Antenna," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 984-986.

[23]H. Zhao, L. Deng, B. Feng, L. Yin and S. Li, "Comparison of Non-Diffraction Microstrip Antennas and Traditional Microstrip Antennas," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 854-857.

[24]X. Ding, J. Wu and B. Feng, "A Balance between High-Density Development and Ancient Ruins Protection," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 990-994.

[25]Y. Zhang, G. Liu and B. Feng, "Research on the Value Evaluation System of Macao's Industrial Heritage from the Perspective of Protection and Renewal," 2022 IEEE 5th International Conference on Electronic Information and Communication Technology (ICEICT), Hefei, China, 2022, pp. 998-1002.

[26]J. Jiang and B. Feng, "Chinese-Characters Jin-Shaped Patch Antenna Array for 5G Millimeter Wave Communications," 2021 Cross Strait Radio Science and Wireless Technology Conference (CSRSWTC), Shenzhen, China, 2021, pp. 251-253.

[27]K. L. Chung, J. Wen, B. Feng and J. Chen "A New Performance Metric of Filtering Antennas: Radiation-Suppression Index," 2021 International Workshop on Electromagnetics: Applications and Student Innovation Competition (iWEM), Guangzhou, China, 2021, pp. 1-2.

[28]W. Liu, L. Deng, S. Li, B. Feng and L. Chen, "High Transmittance and Broadband Group Delay Metasurface Element in Ka Band," 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT), Xi'an, China, 2021, pp. 669-671.

[29]Y. Fang, B. Feng, S. Sun and L. Deng, "A 30° Gain Suppression Omnidirectional Magneto- Electric Dipole Antenna MIMO System for Indoor Sub-6 GHz 5G Applications," 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT), Xi'an, China, 2021, pp. 871-873.

[30]H. Li, W. Cao, B. Feng and L. Deng, "A Dual-Polarized Omni-directional Antenna for 2G/3G/LTE/5G-C Band Applications," 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT), Xi'an, China, 2021, pp. 720-722.

[31]Y. Huang, Y. Sun, B. Feng and L. Deng, "Circularly Polarized Antenna with Simple Structure for 5G Millimeter-Wave Applications," 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT), Xi'an, China, 2021, pp. 726-727.

[32]Z. Liu, B. Feng and L. Deng, "A Wideband Vertically Polarized Omnidirectional Antenna for Indoor 2G/3G/LTE/5G Applications," 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT), Xi'an, China, 2021, pp. 812-813.

[33]S. Zhang, L. Deng, C. Zhang, S. Li, B. Feng and L. Chen, "Restriction on the Purity of OAM Modes Generated by Digital and Coding Metasurfaces," 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT), Xi'an, China, 2021, pp. 672-674.

[34]A. Li, B. Feng and L. Deng, "A ±45° Dual-Polarized Flat-Topped Radiation Antenna Array for 5G Applications," 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT), Xi'an, China, 2021, pp. 684-686.

[35]Yang, H. Huang, B. Feng and L. Deng, "A Dual-Polarized Zhe-Shaped Conformal Patch Antenna for 5G Millimeter-Wave Applications," 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT), Xi'an, China, 2021, pp. 866-868.

[36]X. He, L. Deng and B. Feng, "Single-Layer Reflective Metasurface for Dual-Band OAM Multiplexing," 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT), Xi'an, China, 2021, pp. 677-679.

[37]B. Pan, B. Feng, L. Deng and S. Sun, "A Compact Log-Period Dipole Antenna with High Gain for 5G Applications," 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT), Xi'an, China, 2021, pp. 728-730.

[38]H. Li, W. Cao, B. Feng and L. Deng, "A High-Gain Yagi Antenna for 5G-C Band," 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT), Xi'an, China, 2021, pp. 723-725.

[39]W. Zha, B. Feng, K. L. Chung and L. Deng, "Design of Tri-band Unidirectional Printed Antenna," 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT), Xi'an, China, 2021, pp. 680-681.

[40]S. Qi, B. Feng and L. Deng, "A Wide-Beamwidth Differentially-Fed Filter Antenna for Ultra-wideband Applications," 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT), Xi'an, China, 2021, pp. 808-809.

[41]Y. Li, L. Deng, S. Li, B. Feng and L. Chen, "A Recognition Method of OAM based on Diffraction Neural Network," 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT), Xi'an, China, 2021, pp. 666-668.

[42]Z. Guo, Y. Wang, L. Liu, S. Sun, B. Feng and X. Zhao, "Siamese Network-Based Few-Shot Learning for Classification of Human Peripheral Blood Leukocyte," 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT), Xi'an, China, 2021, pp. 818-822.

[43]B. Yang, H. Huang, B. Feng and L. Deng, "A Ji-Shaped Chinese-Character Millimeter-Wave Antenna for 5G Communications," 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT), Xi'an, China, 2021, pp. 869-870.

[44]G. Zhuang, B. Feng, S. Sun and L. Deng, "A Broadband Miniaturized Log-periodic Dipole Antenna," 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT), Xi'an, China, 2021, pp. 682-683.

[45]Z. Zhang, L. Deng, S. Li, B. Feng and L. Chen, "High-Power Rectifier Antenna Array in X Band," 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT), Xi'an, China, 2021, pp. 314-316.

[46]Z. Chen, B. Feng, Q. Zeng and L. Deng, "A Dual-Band Dual-Polarized Antenna For 5G Micro Basestation Applications," 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT), Xi'an, China, 2021, pp. 810-811.

[47]Y. Liu, B. Feng and L. Deng, "An Omni-directional Array Antenna with a Feeding Structure in Series," 2020 IEEE 3rd International Conference on Electronic Information and Communication Technology (ICEICT), Shenzhen, China, 2020, pp. 708-710.

[48]J. Chen, B. Feng, K. L. Chung and L. Deng, "A Metasurfaced Circularly-Polarized Antenna for Electronic Toll Collection System," 2020 IEEE 3rd International Conference on Electronic Information and Communication Technology (ICEICT), Shenzhen, China, 2020, pp. 694-696.

[49]W. Deng, B. Feng and L. Deng, "A Novel Omni-directional Antenna with Low Gain Variations for WiFi Communications," 2020 IEEE 3rd International Conference on Electronic Information and Communication Technology (ICEICT), Shenzhen, China, 2020, pp. 700-701.

[50]H. Li, W. Cao, B. Feng and L. Deng, "A Compact Dual-Polarized Differentially-Fed Antenna with High Gain for 5G Microcells," 2020 IEEE 3rd International Conference on Electronic Information and Communication Technology (ICEICT), Shenzhen, China, 2020, pp. 705-707.

[51]T. Huang, L. Deng, S. Li and B. Feng, "Dual Polarized OAM Multibeams Metasurface for Terahertz Applications," 2020 IEEE 3rd International Conference on Electronic Information and Communication Technology (ICEICT), Shenzhen, China, 2020, pp. 655-657.

[52]B. Yang, H. Huang, B. Feng and L. Deng, "An Omnidirectional Antenna with Wide Bandwidth and High Gain for WiFi-5 and WiFi-6 Applications," 2020 IEEE 3rd International Conference on Electronic Information and Communication Technology (ICEICT), Shenzhen, China, 2020, pp. 714-716.

[53]A. Cui, K. L. Chung, L. Li and B. Feng, "Investigation into Mutual Coupling Between Artistic Chinese-Character-Shaped Patch Antennas," 2020 IEEE 3rd International Conference on Electronic Information and Communication Technology (ICEICT), Shenzhen, China, 2020, pp. 799-802.

[54]J. Chen, B. Feng, Q. Zeng and L. Deng, "A Metasurface Antenna with Dual Circularly Polarization for 5G Millimeter-Wave Applications," 2020 IEEE 3rd International Conference on Electronic Information and Communication Technology (ICEICT), Shenzhen, China, 2020, pp. 697-699.

[55]X. He, L. Deng and B. Feng, "Reflective Metasurface for Controlling the Beam Divergence Angles of Dual-mode OAM Waves," 2020 IEEE 3rd International Conference on Electronic Information and Communication Technology (ICEICT), Shenzhen, China, 2020, pp. 636-639.

[56]H. Li, W. Cao, B. Feng and L. Deng, "A Dual-Polarized Omnidirectional Antenna with High Isolation for 2G/3G/LTE/5G Scenarios," 2020 IEEE 3rd International Conference on Electronic Information and Communication Technology (ICEICT), Shenzhen, China, 2020, pp. 702-704.

[57]L. Li, W. Yan, B. Feng and L. Deng, "A Wideband Omni-directional Antenna Based on Printed Log-Periodic Element," 2020 IEEE 3rd International Conference on Electronic Information and Communication Technology (ICEICT), Shenzhen, China, 2020, pp. 719-720.

[58]J. Shu, L. Deng, S. Li and B. Feng, "Use OFDM In OAM Communication to Redcuce Multi-path Effects," 2020 IEEE 3rd International Conference on Electronic Information and Communication Technology (ICEICT), Shenzhen, China, 2020, pp. 54-56.

[59]X. Ren, L. Deng, S. Li, C. Zhang and B. Feng, "An One-dimensional Holographic Antenna For RFID Reader," 2020 IEEE 3rd International Conference on Electronic Information and Communication Technology (ICEICT), Shenzhen, China, 2020, pp. 640-641.

[60]L. Li, W. Yan, B. Feng and L. Deng, "A Wide-Beamwidth Magneto-Electric Dipole Antenna with Low Cross-Polarization and High Front-to-Back Ratio," 2020 IEEE 3rd International Conference on Electronic Information and Communication Technology (ICEICT), Shenzhen, China, 2020, pp. 717-718.

[61]T. Zeng, L. Deng, S. Li and B. Feng, "Highly Efficient Generation of Non-diffraction Bessel Beams with Metasurface," 2020 IEEE 3rd International Conference on Electronic Information and Communication Technology (ICEICT), Shenzhen, China, 2020, pp. 629-631.

[62]B. Zhang, L. Deng, S. Li and B. Feng, "Performance Analysis of Single Link OAM Communication System," 2020 IEEE 3rd International Conference on Electronic Information and Communication Technology (ICEICT), Shenzhen, China, 2020, pp. 1-5.

[63]B. Yang, H. Huang, B. Feng and L. Deng, "An Omni-directional Antenna with High Gain for WiFi-6 Applications," 2020 IEEE 3rd International Conference on Electronic Information and Communication Technology (ICEICT), Shenzhen, China, 2020, pp. 711-713.

[64]X. Ren, L. Deng, C. Zhang and B. Feng, "A Conformal OAM Metasurface Antenna Based On Holographic Principle," 2020 IEEE Asia-Pacific Microwave Conference (APMC), Hong Kong, Hong Kong, 2020, pp. 685-687.

[65]K. L. Chung, R. Liu, W. Li, J. Lai and B. Feng, "On the Circular-Polarization Operation of Chinese-Character-Shaped Patch Antennas," 2019 International Conference on Microwave and Millimeter Wave Technology (ICMMT), Guangzhou, China, 2019, pp. 1-3.

[66]K. L. Chung, S. Xie, M. Guan, L. Wang and B. Feng, "A Method for Measuring Dielectric Properties of Dielectric Laminates," 2019 International Conference on Microwave and Millimeter Wave Technology (ICMMT), Guangzhou, China, 2019, pp. 1-3.

[67]K. L. Chung, R. Liu, Y. Li and B. Feng, "A Study of Composite Microstrip/Coplanar-Waveguide Transmission Line for Miniaturization of Microwave Planar Circuits," 2019 Cross Strait Quad-Regional Radio Science and Wireless Technology Conference (CSQRWC), Taiyuan, China, 2019, pp. 1-3.

[68]Y. Tu and B. Feng, "A 3D Printed Dual Circularly Polarized Antenna for Millimeter-Wave Applications," 2019 International Workshop on Electromagnetics: Applications and Student Innovation Competition (iWEM), Qingdao, China, 2019, pp. 1-2. (Corresponding Author)

[69]L. Li and B. Feng, "A Three-Dimensional Printed Dipole Antenna with Dual-Circular Polarization and Wide Beamwidth," 2019 International Workshop on Electromagnetics: Applications and Student Innovation Competition (iWEM), Qingdao, China, 2019, pp. 1-2. (Corresponding Author)

[70]J. Chen and B. Feng, "A Dual-Polarized Xi-Shaped Artistic Antenna for 5G Millimeter Wave Communications," 2019 International Workshop on Electromagnetics: Applications and Student Innovation Competition (iWEM), Qingdao, China, 2019, pp. 1-2. (Corresponding Author)

[71]X. He and B. Feng, "A Substrate Integrated Waveguide Wide-Beamwidth Antenna for 5G Communications," 2019 International Workshop on Electromagnetics: Applications and Student Innovation Competition (iWEM), Qingdao, China, 2019, pp. 1-2. (Corresponding Author)

[72]C. Zhu and B. Feng, "A Dual-Polarized Antenna Using an Origami Structure for 5G Emergency Communications," 2019 International Workshop on Electromagnetics: Applications and Student Innovation Competition (iWEM), Qingdao, China, 2019, pp. 1-2. (Corresponding Author)

[73]J. Lai, B. Feng and Q. Zeng, "A Dual-Polarized Wide-Beamwidth Magneto-Electric Dipole Antenna for the Fifth Generation Mobile Communications," 2019 IEEE 6th International Symposium on Electromagnetic Compatibility (ISEMC), Nanjing, China, 2019, pp. 1-3. (Corresponding Author)

[74]J. Chen, B. Feng and Q. Zeng, "A Tri-polarized MIMO Antenna with Diverse Radiation Properties for the 5G-V2X Vehicual Communications," 2019 IEEE 6th International Symposium on Electromagnetic Compatibility (ISEMC), Nanjing, China, 2019, pp. 1-3. (Corresponding Author)

[75]J. Lai, B. Feng, Q. Zeng and S. Su, "A Dual-Band Dual-Polarized Omnidirectional Antenna for 2G/3G/LTE Indoor System Applications," 2018 IEEE International Conference on Signal Processing, Communications and Computing (ICSPCC), Qingdao, 2018, pp. 1-3. (Corresponding Author)

[76]X. He, B. Feng and Q. Zeng, "A Low-Profile Differentially Feeding Dual-Polarized Antenna Using Wideband AMC Reflector," 2018 IEEE International Conference on Signal Processing, Communications and Computing (ICSPCC), Qingdao, 2018, pp. 1-4. (Corresponding Author)

[77]J. Lai, B. Feng, Q. Zeng and K. L. Chung, "A low-profile metamaterial magneto-electric dipole antenna with band-notch characteristics for 5-G MIMO base-stations," 2017 International Symposium on Antennas and Propagation (ISAP), Phuket, 2017, pp. 1-2. (Corresponding Author)

[78]X. Chen, B. Feng, Q. Zeng and K. L. Chung, "A substrate integrated magneto-electric dipole antenna and its 3D MIMO system with metasurface for 5G/WiMAX/WLAN/X-band applications," 2017 International Symposium on Antennas and Propagation (ISAP), Phuket, 2017, pp. 1-2. (Corresponding Author)

[79]M. Wang, X. Xu, B. Feng and L. Deng, "Graphene reflectarray that steers vortex THz waves," 2017 International Symposium on Antennas and Propagation (ISAP), Phuket, 2017, pp. 1-2. (Corresponding Author)

[80]Luo, Tao, Botao Feng, and Qingsheng Zeng. "A novel magneto-electric dipole antenna with wide H-plane triple-linear polarization and frequency reconfiguration for 5G application." 2017 IEEE 5th International Symposium on Electromagnetic Compatibility (EMC-Beijing). IEEE, 2017. (Corresponding Author)

[81]L. Li, B. Feng, M. Wang and Q. Zeng, "A low-profile dual-polarized magneto-electric dipole antenna with metamaterial loading and anti-interference capability," 2017 IEEE 5th International Symposium on Electromagnetic Compatibility (EMC-Beijing), Beijing, 2017, pp. 1-3. (Corresponding Author)

[82]Y. Tu, B. Feng, M. Wang, X. He and Q. Zeng, "A three-element dual-polarized antenna array with beamwidth reconfiguration," 2017 Sixth Asia-Pacific Conference on Antennas and Propagation (APCAP), Xi'an, 2017, pp. 1-3. (Corresponding Author)

[83]X. Chen, B. Feng, Q. Zeng and K. L. Chung, "A substrate integrated magneto-electric dipole antenna and its 3D MIMO system with metasurface for 5G/WiMAX/WLAN/X-band applications," 2017 International Symposium on Antennas and Propagation (ISAP), Phuket, 2017, pp. 1-2. (Corresponding Author)

[84]B. Feng, Q. Zeng and M. Wang, "Substrate integrated magneto-electric dipole antenna for WLAN and WiMAX applications," 2016 IEEE MTT-S International Conference on Numerical Electromagnetic and Multiphysics Modeling and Optimization (NEMO), Beijing, 2016, pp. 1-2.

[85]B. Feng, Jianfeng Zhu, L. Deng, W. An and Qingsheng Zeng, "A printed dual-wideband magneto-electric dipole antenna and its MIMO system for WLAN and WiMAX applications," 2016 IEEE International Conference on Computational Electromagnetics (ICCEM), Guangzhou, 2016, pp. 256-258.

[86]Li Deng, Weijun Hong, Shufang Li, Jianfeng Zhu, Biao Peng and Botao Feng, "Discretization of an square electromagneic cloak based on transformation optics," 2015 IEEE 6th International Symposium on Microwave, Antenna, Propagation, and EMC Technologies (MAPE), Shanghai, 2015, pp. 829-832.

[87]L. Deng, W. Hong, S. Li, B. Feng, J. Zhu and B. Peng, "Alumina ceramic slot antenna for UHF RFID tag embedded in vehicles," 2015 Asia-Pacific Microwave Conference (APMC), Nanjing, 2015, pp. 1-3.

[88]Jianfeng Zhu, Shufang Li, Biao Pen, Botao Feng and Li Deng, "Circularly polarized dual frequency band quasi-annular-ring slot antenna for wireless local area networks (WLAN) applications," 11th International Conference on Wireless Communications, Networking and Mobile Computing (WiCOM 2015), Shanghai, 2015, pp. 1-3.

国内期刊:

[1]周宇,赖杰鑫,冯波涛.一种应用于2G/3G/LTE室内分布系统的双宽频、双极化天线[J].信息与电脑(理论版),2018(15):194-196.

[2]朱剑锋, 冯波涛, 彭彪,等. 一种带双陷波特性的超宽带介质谐振天线[C]// 全国天线年会. 2015.

[3]冯波涛. 无线通信系统中的多频宽带天线研究[D]. 北京邮电大学, 2015.

[4]冯波涛,李书芳,“一种应用于超宽带通信U型蝴蝶结电磁偶极子天线,” 2013全国天线年会,广州,pp.381-386, 2013.11.

[5]冯波涛. 无线局域网和蜂窝网融合技术研究[J]. 信息与电脑(理论版), 2013(6):50-51.

[6]冯波涛. 一种利用S参数测量平衡RFID标签天线阻抗的优化方法[J]. 中国科技博览, 2013(36):77-80.

[7]冯波涛. 一种电磁偶极子超宽带微带天线设计[J]. 中国科技信息, 2013(15):130-130.

[8]冯波涛. 基于WCDMA覆盖问题的快速优化方法研究[J]. 中国科技博览, 2010(24):249-249.

[9]冯波涛. 基于WCDMA导频污染的快速优化方法研究[J]. 移动通信, 2010, 34(20):98-99.

[10]冯波涛, 王恒哲, 万晓榆,等. Parlay网关中SIP服务器状态机的设计与实现[J]. 移动通信, 2009, 33(6):32-35

五、专利 (部分)

发明专利:(数据来源于国家知识产权公共服务网/专利汇, 按申请日倒序)

[1]一种应用于测距和测角场景的宽带双频圆极化全向天线,公开(公告)号:CN116632525A,公开(公告)日:2023-08-22,申请号:CN202310891794.4,申请日:2023-07-20,申请人: 深圳华云时空技术有限公司,发明人 : 王春华 , 李振亚 , 冯波涛 , 杨星星。

[2]一种应用于亚太赫兹频段的反射阵天线,公开(公告)号:CN116526153A,公开(公告)日:2023-08-01,申请号:CN202310474927.8,申请日:2023-04-28,申请人: 深圳市齐奥通信技术有限公司,发明人 : 黄洪平 , 杨星星 , 冯波涛 , 邓胜丰 , 白启昊。

[3]双极化全向室分天线,公开(公告)号:CN116264354A,公开(公告)日:2023-06-16,申请号:CN202211367350.2,申请日:2022-11-02,申请人:深圳市深邮星科技有限公司,发明人:冯波涛,齐思远,杨星星。

[4]一种具备高增益的多频MIMO组合天线,公开(公告)号:CN116387856A,公开(公告)日:2023-07-04,申请号:CN202310467600.8,申请日:2023-04-27,申请人: 广东中元创新科技有限公司,发明人: 张伟强, 周政东,冯波涛

[5]一种组合式高增益全向垂直极化天线,公开(公告)号:CN116470305A,公开(公告)日:2023-07-21,申请号:CN202310460022.5,申请日:2023-04-26,申请人: 广东中元创新科技有限公司,发明人 : 张伟强 , 黄义平 , 冯波涛

[6]一种中型室内分布定向天线,公开(公告)号:CN116613506A,公开(公告)日:2023-08-18,申请号:CN202310450310.2,申请日:2023-04-25,申请人: 广东中元创新科技有限公司,发明人 : 张伟强 , 伍素琳 , 冯波涛

[7]一种小型室内定向天线,公开(公告)号:CN116487880A,公开(公告)日:2023-07-25,申请号:CN202310449436.8,申请日:2023-04-25,申请人: 广东中元创新科技有限公司,发明人 : 张伟强 , 饶立伟 , 冯波涛

[8]一种双频亚太赫兹圆极化波束扫描透镜天线,申请号:CN202310473670.4,申请日:2023-04-28,公开(公告)号:CN116207502A,公开(公告)日:2023-06-02, 申请人:深圳市齐奥通信技术有限公司,发明人 :黄洪平,饶立伟,冯波涛,邓胜丰,白启昊

[9]一种双频反射阵列天线,申请号:CN202310352526.5,申请日:2023-04-04,公开(公告)号:CN116154467A,公开(公告)日:2023-05-23,申请人:深圳市齐奥通信技术有限公司,发明人 :黄洪平,周政东,冯波涛,白启昊,邓胜丰

[10]一种双频端射抛物面天线,申请号:CN202211578211.4,申请日:2022-12-09,公开(公告)号:CN115799840A,公开(公告)日:2023-03-14,申请人: 深圳市博达盛科技有限公司,发明人:朱剑锋冯波涛

[11]用于基站天线的合路移相器馈电网络,申请号:CN202211508870.0,申请日:2022-11-29,公开(公告)号:CN115939781A,公开(公告)日:2023-04-07,申请人: 深圳市博达盛科技有限公司,发明人: 冯波涛, 周政东

[12]双极化全向室分天线,公开(公告)号:CN116264354A,公开(公告)日:2023-06-16,申请号:CN202211367350.2,申请日:2022-11-02,申请人: 深圳市深邮星科技有限公司,发明人 : 冯波涛, 齐思远 , 杨星星。

[13]太赫兹透射阵天线,申请号:CN202211361176.0,申请日:2022-11-02,公开(公告)号:CN115732942A,公开(公告)日:2023-03-03,申请人:深圳市深邮星科技有限公司发明人 :冯波涛杨百发周政东黄义平

[14]频率选择表面折叠透射阵列天线,申请号:CN202211361472.0,申请日:2022-11-02,公开(公告)号:CN115732933A,公开(公告)日:2023-03-03,申请人:深圳市深邮星科技有限公司发明人 :冯波涛李浩明饶立伟

[15]波束可重构的毫米波阵列天线,申请号:CN202211361191.5,申请日:2022-11-02,公开(公告)号:CN115732911A,公开(公告)日:2023-03-03,申请人:深圳市深邮星科技有限公司发明人 :冯波涛杨百发饶立伟

[16]车载天线,申请号:CN202211361165.2,申请日:2022-11-02,公开(公告)号:CN115732904A,公开(公告)日:2023-03-03,申请人:深圳市深邮星科技有限公司发明人 :冯波涛李浩明周政东

[17]带陷波结构的三频宽带室分天线,申请号:CN202211361175.6,申请日:2022-11-02,公开(公告)号:CN115732899A,公开(公告)日:2023-03-03,申请人:深圳市深邮星科技有限公司发明人 :冯波涛黄义平杨星星

[18]一种集成多功能的紧凑型天线,申请号:CN202211256719.2申请日:2022-10-14,公开(公告)号:CN115425393A公开(公告)日:2022-12-02,申请人:广东中元创新科技有限公司发明人:张伟强, 查文德, 冯波涛

[19]一种具有滤波功能的WiFi全向天线,申请号:CN202211207559.2申请日:2022-09-30,公开(公告)号:CN115473044A公开(公告)日:2022-12-13,申请人:广东中元创新科技有限公司发明人 :张伟强 ,杨百发, 冯波涛

[20]一种宽带高增益WiFi全向天线,申请号:CN202211206825.X申请日:2022-09-30,公开(公告)号:CN115473043A公开(公告)日:2022-12-13,申请人:广东中元创新科技有限公司发明人: 张伟强 , 李阿标 , 冯波涛

[21]椭圆柱形龙伯透镜天线及制作方法,申请号:CN202210385217.3申请日:2022-04-13,公开(公告)号:CN114792889A公开(公告)日:2022-07-26,申请人:深圳市博达盛科技有限公司发明人: 冯波涛, 杨星星

[22]复合型人工介质透镜天线及制作方法,申请号:CN202210300290.6申请日:2022-03-25,公开(公告)号:CN114639967A公开(公告)日:2022-06-17,申请人:深圳市南斗星科技有限公司发明人 : 梁胜 , 周政东, 李汉青, 冯波涛 , 李力, 李祖泰 , 吴树煜

[23]MIMO天线及车载天线装置,申请号:CN202111389593.1申请日:2021-11-22,公开(公告)号:CN113972503A公开(公告)日:2022-01-25,申请人: 深圳市海德门电子有限公司发明人 : 杨百发戴海军 , 刘奕彬, 冯波涛

[24]一种兼容Sub-6GHz和毫米波频段的共享口径面天线,公开(公告)号:CN113363725B,公开(公告)日:2023-06-27,申请号:CN202110669137.6,申请日:2021-06-17,申请人:深圳市博达盛科技有限公司,发明人:朱剑锋,冯波涛,梁胜。

[25]一种复合超表面天线申请号:CN202110623942.5申请日:2021-06-04,公开(公告)号:CN113328258A公开(公告)日:2021-08-31,申请人:深圳市深邮星科技有限公司发明人:朱剑锋, 冯波涛

[26]一种WiFi全向天线申请号:CN202110179579.2申请日:2021-02-07,公开(公告)号:CN112993575A公开(公告)日:2021-06-18,申请人:深圳市南斗星科技有限公司发明人 : 梁胜, 冯波涛, 杨百发

[27]应用于5G和6G频段的全向宽频WiFi天线,申请号:CN202110179573.5申请日:2021-02-07,公开(公告)号:CN112993551A公开(公告)日:2021-06-18,申请人: 深圳市南斗星科技有限公司发明人 :梁胜,冯波涛,涂雅婷

[28]一种宽带宽高增益的WiFi全向天线申请号:CN202110168246.X申请日:2021-02-07,公开(公告)号:CN112993548A公开(公告)日:2021-06-18,申请人: 深圳市南斗星科技有限公司发明人 :梁胜,冯波涛,祝灿

[29]滤波天线、天线阵列以及无线设备,申请号:CN202011564898.7申请日:2020-12-25,公开(公告)号:CN112768889A公开(公告)日:2021-05-07,申请人:深圳市南斗星科技有限公司发明人 :梁胜,冯波涛,陈均龙

[30]全向双极化天线和无线设备申请号:CN202011505354.3申请日:2020-12-18,公开(公告)号:CN112768886A公开(公告)日:2021-05-07,申请人: 深圳市南斗星科技有限公司发明人 :梁胜,冯波涛, 赖杰鑫

[31]室内分布天线申请号:CN202011500958.9申请日:2020-12-17公开(公告)号:CN112768885A公开(公告)日:2021-05-07,申请人:深圳市南斗星科技有限公司发明人 :梁胜,冯波涛,陈均龙,杨乔宇

[32]双极化高隔离度室内分布天线申请号:CN202011500893.8申请日:2020-12-17,公开(公告)号:CN112768884A公开(公告)日:2021-05-07申请人: 深圳市南斗星科技有限公司发明人 : 梁胜 , 冯波涛 , 李浩明

[33]一种合路器,申请号:CN202010419605.X申请日:2020-05-18,公开(公告)号:CN111710948A公开(公告)日:2020-09-25申请人: 深圳市南斗星科技有限公司发明人 : 冯波涛 , 陈均龙 , 梁胜

[34]一种双极化毫米波天线单元及天线阵列,申请号:CN201910877217.3申请日:2019-09-17,公开(公告)号:CN110518351A公开(公告)日:2019-11-29,申请人:永利集团发明人 : 冯波涛 , 陈均龙

[35]一种应用于5G-V2X车联网通信系统的三极化车载天线申请号:CN201910825754.3申请日:2019-09-03,公开(公告)号:CN110492239A公开(公告)日:2019-11-22,申请人: 永利集团发明人 : 冯波涛 , 陈佳莹

[36]一种宽频毫米波天线单元及天线阵列,申请号:CN201910390335.1申请日:2019-07-19,公开(公告)号:CN110416746A公开(公告)日:2019-11-05,申请人: 永利集团 , 深圳市中科无线技术有限公司发明人 : 冯波涛 , 陈均龙 , 蒋振华

[37]一种应用于5G通信的双极化大规模MIMO天线,申请号:CN201910390346.X申请日:2019-07-19,公开(公告)号:CN110233324A公开(公告)日:2019-09-13,申请人: 永利集团 , 深圳市中科无线技术有限公司发明人 : 冯波涛 , 罗涛 , 蒋振华申请人: 永利集团 , 深圳市中科无线技术有限公司

[38]一种宽频毫米波天线单元及天线阵列,申请号:CN201910390335.1申请日:2019-07-19,公开(公告)号:CN110416746B公开(公告)日:2021-08-31,申请人: 永利集团 , 深圳市中科无线技术有限公司发明人 : 冯波涛 , 陈均龙 , 蒋振华

[39]一种宽频带双极化双宽面天线单元及天线阵列,申请号:CN201910459851.5申请日:2019-05-29,公开(公告)号:CN110289482A公开(公告)日:2019-09-27,申请人: 永利集团发明人 : 冯波涛 , 李良英

[40]一种应用于5G通信的全向室分天线申请号:CN201910390342.1申请日:2019-05-10,公开(公告)号:CN110233331A公开(公告)日:2019-09-13,申请人: 永利集团发明人 : 冯波涛 , 罗涛

[41]一种圆极化电磁偶极子阵列天线,申请号:CN201910390840.6申请日:2019-05-10,公开(公告)号:CN110190408A公开(公告)日:2019-08-30,申请人: 永利集团发明人 : 冯波涛 , 赖杰鑫

[42]背腔激励的双极化电磁偶极子阵列天线,申请号:CN201811452320.5申请日:2018-11-30,公开(公告)号:CN109361073A公开(公告)日:2019-02-19,申请人: 深圳市锦鸿无线科技有限公司 , 永利集团发明人 : 乔斌 , 冯波涛 , 涂雅婷 , 彭发辉 , 郑翠兰

[43]一种应用于5G通信的宽波束扫描双频双极化微基站天线,申请号:CN201811056839.1申请日:2018-09-11,公开(公告)号:CN109524762A公开(公告)日:2019-03-26,申请人: 永利集团 , 富华科精密工业(深圳)有限公司发明人 : 冯波涛 , 李磊 , 陈铁钰 , 刘叶雨

[44]一种应用于5G通信的低剖面高隔离度差分双极化缝隙天线,申请号:CN201811038820.4申请日:2018-09-06,公开(公告)号:CN109301489A公开(公告)日:2019-02-01,申请人: 永利集团发明人 : 冯波涛 , 何晓媛 , 周宇

[45]一种应用于室内分布系统的全向双宽频双极化天线,申请号:CN201811037906.5申请日:2018-09-06,公开(公告)号:CN109301488A公开(公告)日:2019-02-01,申请人: 永利集团 , 斯凯威技术(深圳)有限公司发明人 : 冯波涛 , 赖杰鑫 , 胡皓

[46]一种应用于5G通信的双宽面磁电偶极子基站天线,申请号:CN201811039424.3申请日:2018-09-06,公开(公告)号:CN109301462A公开(公告)日:2019-02-01,申请人: 永利集团发明人 : 冯波涛 , 祝灿 , 文新源

[47]一种超表面介质板的磁电偶极子天线,申请号:CN201710912550.4申请日:2017-09-29,公开(公告)号:CN107819203A公开(公告)日:2018-03-20,申请人: 永利集团发明人 : 冯波涛

[48]一种介质板堆叠的超表面磁电偶极子天线,申请号:CN201710911518.4申请日:2017-09-29,公开(公告)号:CN107799892A公开(公告)日:2018-03-13,申请人: 永利集团发明人 : 冯波涛

[49]一种应用于5G通信的MIMO基站天线,申请号:CN201710912546.8申请日:2017-09-29,公开(公告)号:CN107768816A公开(公告)日:2018-03-06,申请人: 永利集团发明人 : 冯波涛 , 赖杰鑫

[50]一种应用于5G通信的磁电偶极子天线,申请号:CN201710911482.X申请日:2017-09-29,公开(公告)号:CN107799891B公开(公告)日:2019-12-31,申请人: 永利集团发明人 : 冯波涛 , 罗涛

[51]一种应用于5G通信的MIMO基站天线,申请号:CN201710912546.8申请日:2017-09-29,公开(公告)号:CN107768816B公开(公告)日:2019-12-27,申请人: 永利集团发明人 : 冯波涛 , 赖杰鑫

[52]一种基站天线和基站射频设备,申请号:CN201710741042.4申请日:2017-08-25,公开(公告)号:CN107749518A公开(公告)日:2018-03-02,申请人: 深圳日海通讯技术股份有限公司 , 发明人 : 冯波涛 , 李磊

[53]一种基站阵列天线和基站射频设备,申请号:CN201710744677.X申请日:2017-08-25,公开(公告)号:CN107611570A公开(公告)日:2018-01-19,申请人: 深圳日海通讯技术股份有限公司 , 发明人 : 冯波涛 , 涂雅婷

[54]一种认知LTE规避同频脉冲的方法及装置,申请号:CN201510071171.8申请日:2015-02-10,公开(公告)号:CN104717661A公开(公告)日:2015-06-17,申请人: 北京邮电大学 , 罗德与施瓦茨(中国)科技有限公司发明人 :尹良, 李书芳, 张立涛, 白明月, 刘婷, 冯波涛

[55]一种带双陷波特性的超宽带天线,申请号:CN201510033728.9申请日:2015-01-23,公开(公告)号:CN104638355A公开(公告)日:2015-05-20,申请人: 北京邮电大学 , 罗德与施瓦茨(中国)科技有限公司发明人 :李书芳 ,冯波涛,周宇,尹良

[56]一种双宽频互补型天线,申请号:CN201410772508.3申请日:2014-12-12,公开(公告)号:CN105742793A公开(公告)日:2016-07-06,申请人: 青岛海尔电子有限公司 , 北京邮电大学发明人 : 冯波涛 ,翟翌立,李书芳,刘超,周宇,邓力

[57]电磁偶极子天线,申请号 :CN201410373641.1,申请日 :2014.07.31,公开(公告)号 :CN105449348A,公开(公告)日 :2016.03.30,申请(专利权)人:青岛海尔电子有限公司;北京邮电大学;发明人:冯波涛;李书芳;刘超;翟翌立


实用新型:

[58]一种集成多功能的紧凑型天线,申请号:CN202222702371.7申请日:2022-10-14,公开(公告)号:CN218334314U公开(公告)日:2023-01-17,申请人: 广东中元创新科技有限公司发明人:张伟强, 查文德, 冯波涛

[59]一种双频双极化天线,申请号:CN202222679744.3,申请日:2022-10-12,公开(公告)号:CN218525731U,公开(公告)日:2023-02-24,申请人:广东中元创新科技有限公司发明人 :张伟强齐思远冯波涛

[60]一种具有滤波功能的WiFi全向天线,申请号:CN202222603916.9申请日:2022-09-30,公开(公告)号:CN218334322U公开(公告)日:2023-01-17,申请人: 广东中元创新科技有限公司发明人 :张伟强, 杨百发, 冯波涛

[61]一种宽带高增益WiFi全向天线,申请号:CN202222603878.7申请日:2022-09-30,公开(公告)号:CN218334321U公开(公告)日:2023-01-17,申请人:广东中元创新科技有限公司发明人 :张伟强, 李阿标, 冯波涛

[62]人工介质透镜天线及阵列天线,申请号:CN202220845298.6申请日:2022-04-13,公开(公告)号:CN217562835U公开(公告)日:2022-10-11,申请人: 深圳市博达盛科技有限公司发明: 冯波涛, 黄义平

[63]MIMO天线及车载天线装置,申请号:CN202122874808.0申请日:2021-11-22,公开(公告)号:CN216288992U公开(公告)日:2022-04-12,申请人:深圳市海德门电子有限公司发明人:杨百发, 戴海军, 刘奕彬, 冯波涛

[64]应用于5G和6G频段的小型化WiFi天线,申请号:CN202120361035.3申请日:2021-02-07,公开(公告)号:CN214336916U公开(公告)日:2021-10-01,申请人:深圳市南斗星科技有限公司发明人 : 梁胜, 冯波涛, 刘雅琦

[65]一种多频合路器申请号:CN202020825837.0申请日:2020-05-18,公开(公告)号:CN212366156U公开(公告)日:2021-01-15,申请人:深圳市南斗星科技有限公司发明人 :冯波涛 , 陈均龙, 梁胜

[66]一种三频合路器申请号:CN202020825822.4申请日:2020-05-18,公开(公告)号:CN212366155U公开(公告)日:2021-01-15,申请人:深圳市南斗星科技有限公司发明人 :冯波涛, 陈均龙, 梁胜

[67]背腔激励的双极化电磁偶极子阵列天线,申请号:CN201821997336.X申请日:2018-11-30,公开(公告)号:CN209232965U公开(公告)日:2019-08-09,申请人: 深圳市锦鸿无线科技有限公司, 永利集团发明人 :乔斌 , 冯波涛, 涂雅婷, 彭发辉, 郑翠兰

[68]一种基站天线和基站射频设备,申请号:CN201721073962.5申请日:2017-08-25,公开(公告)号:CN207517886U公开(公告)日:2018-06-19,申请人: 深圳日海通讯技术股份有限公司, 深圳日海天线技术有限公司发明人 : 冯波涛 , 李磊

[69]一种基站阵列天线和基站射频设备,申请号:CN201721075432.4申请日:2017-08-25,公开(公告)号:CN207217747U公开(公告)日:2018-04-10,申请人: 深圳日海通讯技术股份有限公司, 深圳日海天线技术有限公司发明人: 冯波涛, 涂雅婷

六、教学/学术奖项

[1]2023 IEEE Fifth International Conference on Electronic Information and Communication Technology (ICEICT), Best Paper.

[2]获得2021年度“永利集团优秀本科教师”奖项。

[3]入选2021年度斯坦福大学“全球前2%顶尖科学家榜单”(Stanford University World’s Top 2% Scientists).

[4]2022 IEEE Fifth International Conference on Electronic Information and Communication Technology (ICEICT), Best Paper Tutor.

[5]2020 IEEE Third International Conference on Electronic Information and Communication Technology (ICEICT), Best Paper Tutor.

[6]2019年国际学术会议iWEM 2019 (IEEE International Workshop on Electromagnetics: Applications and Student Innovation Competition 2019),指导学生同时获得最佳论文奖2篇

[7]2020年度“高性能5G/B5G汉字艺术天线”获得广东省高校成果路演大赛电子信息组“优胜奖”

[8]2020年度获得“广东省大学生创新创业训练计划项目-优秀指导教师”称号。

[9]2019年获得“腾讯益友奖校级优秀班主任”;

[10]2018年获得“永利集团优秀班主任”;

[11]指导2017年全国研究生电子竞赛,并获得华南赛区一等奖,获得“优秀指导教师”奖项;

[12]2016年度获得永利集团“青年教师教学能力提升项目”优秀奖

[13]2016年获得永利集团“优秀本科单科课程奖”;

[14]2016年获得“腾讯校级优秀班主任”;

[15]2016年-2022担任永利集团电光党支部书记/电科系副主任,分别被评为“校级优秀工会干部”、“积极分子”、“优秀党员”。

七、学术兼职

[1]2023 IEEE Sixth International Conference on Electronic Information and Communication Technology(ICEICT), TPC Chair;

[2]International Journal of RF and Microwave Computer-Aided Engineering, Guest Editor (2020-2022).

[3]2022 IEEE Fifth International Conference on Electronic Information and Communication Technology(ICEICT), TPC Chair;

[4]EDTEST 深圳2022/2023电子设计与测试技术国际峰会“微波射频技术应用与发展论坛”主席;

[5]2021 IEEE Fourth International Conference on Electronic Information and Communication Technology(ICEICT), General Co-Chair;

[6]2021 IEEE Cross Strait Quad-Regional Radio Wireless Conference, TPC Co-Chair;

[7]2020 IEEE Third International Conference on Electronic Information and Communication Technology(ICEICT), General Chair;

[8]iWEM 2019, Qingdao (IEEE International Workshop on Electromagnetics: Applications and Student Innovation Competition 2019),Section Chair;

[9]2019 The 6th International Symposium on Electromagnetic Compatibility (ISEMC'2019, Nanjing), Section Chair;

八、社会兼职

[1]加拿大国立科研院 能源材料通信研究中心 高级研究员

[2]惠州学院 计算机科学与工程学院 客座教授

[3]深圳市锦浩胜科技有限公司-永利集团无线通信与天线传播联合实验室 主任

[4]东莞市优比电子公司-永利集团无线通信与天线传播联合实验室 主任

[5]深圳市南斗星科技有限公司 首席科学家

[6]广东中元创新科技有限公司 特聘顾问

[7]佛山市佳昇通信设备有限公司 技术顾问

[8]深圳市涛必达科技有限公司 董事长

[9]深圳市博达盛科技有限公司 董事长

[10]慧联技研新材料(成都)有限公司 监事

[11]重庆邮电大学大湾区员工会科学家分会 主席 (首届)

[12]重庆邮电大学下一代网络研究所深圳分会 主席

[13]北京邮电大学无线通信与电磁兼容实验室深圳分会 主席