杨堃 博士、教授、国家级青年人才 个人简介PPT

电子邮件：yangkun@zjou.edu.cn

通讯地址：浙江省舟山市定海区临城街道海大南路1号 邮编：316022

教育经历:

2008.05 –2014.02：博士, 无线通信信道测量与建模博士, 挪威科技大学 (Norwegian University of Science and Technology), 挪威

2005-2007： 双硕士学位 ,信息与通信系统硕士, 阿哥德大学 (Agder University), 挪威

2004-2005： 信息与通信系统硕士, 武汉理工大学，中国武汉

2000-2004： 电子通信系统学士， 武汉科技大学, 中国武汉

2021.01-至今：教授，浙江省海洋大数据挖掘与应用重点实验室主任，海洋通信实验室负责人

工作单位：网投比较靠谱的大平台

研究方向：海洋宽带通信技术，海洋无线信道测量与建模

2014.03-2020.12：创始人，工作单位：Super Radio AS, Oslo， Norway

责任描述：提供专业的无线信道测量和海洋宽带通信解决方案

2016.01-2017.03：博士后, 工作单位：法国IFSTTAR国立交通研究所，Prof. Marion BERBINEAU (research director)的无线通信组

责任描述：主要项目参与人，负责开发60 GHz 毫米波信道测量仪，并基于设备对无线电在不同的高铁环境进行测量和分析。

2012.10-2013.06： Project coordinator, 工作单位：Fugro Oceanor AS, Trondheim, Norway

责任描述：开发基于北斗卫星通信技术的海上浮标检测系统

2012.01-2012.04： 访问学者, 工作单位：法国Eurecom工程师学院，Prof. David Gesbert (IEEE fellow)的无线通信组

责任描述：主要项目带头人，负责开发基于802.11n的Wifi海上测量方案，并基于该方案对无线电在不同的海上环境进行测量和分析。团队成员包括2名Eurecom博士。

2011.06-2011.09： 访问学者, 工作单位：南加州大学，Prof. Andreas Molisch (IEEE fellow)的WiDes组学术交流

责任描述：测量数据分析及其信道建模

2008.05—2012.10： 博士研究员, 工作单位：MARINTEK 和挪威科技大学

硬件环境：信道测量设备，wimax基站和移动设备， 多天线技术

责任描述：参与挪威国家重大科技项目“The MarCom project: Broadband at sea.”负责项目中的海上信道建模，对通信环境进行理论建模，并对其统计特性进行分析和仿真。在此基础上，搭建信道测量平台，对几个典型的海上信道环境进行测量，并对测量数据进行分析对信道模型进行修正和完善。项目合作单位包括25个挪威和国际公司以及研究机构共同合作，并由MARINTEK领导， 总价值3200万挪威克朗。

    2007.08—2008.05： 嵌入式系统工程师 , 工作单位：Witelcom AS

责任描述：主要负责wimax基站和CPE设备的核心开发。为wimax基站和cpe设计系统和配置网页，并设计网络，添加新的网络功能并对其进行测试和调试。同时基于openwrt和Mikrotik设计WIFI用于5G频段。

2006.10—2007.06： 科研助理, 工作单位：阿哥德大学， Prof. Matthias Patzold教授的移动通信组

责任描述：主要负责设计并实施基于超正交空时网格编码的MIMO-OFDM系统，并在该系统的基础上测试天线间距，最大多普勒频移，信道延时等参数对系统误码率，误信率以及无帧率的影响。根据HIPERLAN/2标准，设计并测试基于超正交空时网格码的MIMO-OFDM系统。研究信道模型，并针对阴影信道模型提出新的Level-Crossing Rate, PDF of Fading intervals的计算方法

My website in English:

https://www.researchgate.net/profile/Kun-Yang-35

本人隶属于网投比较靠谱的大平台省级重点实验室&网投比较靠谱的大平台的海洋通信实验室大团队，重点从事海洋宽带通信技术，海洋无线信道测量与建模技术研究.

海洋宽带通信技术，海洋无线信道测量与建模

博士研究生：

硕士研究生：

王雨硕

陈旭扬

曾毫

丁建军

张智鹏

伍健明

管恒超

卢逸涵

Alumni：

农业信息化、数学、水生工程

① 主持省属高校基本科研重点项目，“结合无线信道测量仪的高精度无线信道参数估计算法研究”。项目时间 2021年至2022年，总经费25万。

②  Project leader（Board Chair ），主持挪威国家级重大科技项目“LTE, WIFI and 5G      Massive MIMO Communications in Maritime Propagation Environments （MAMIME）”。项目合作单位包括 挪威科技大学， 挪威Agder大学等挪威3家顶级研究 和5家挪威高新技术企业。项目时间 2016年至2019年，总经费1400万挪威克朗，由挪威研究理事会资助。

③ 主持欧盟地平线中小企业创新卓越项目，Maritime 5G: Connect the sea to the digital      world (Seal of Excellence in H2020 SME instrument phase 1), 由挪威创新署资助50万挪威克朗, 2019-2020。

④ 项目负责人， 主持中国国国家自然科学青年基金，项目名称及编号：“适用于海洋环境下5G大规模MIMO通信信道模型研究”,项目时间2017年到2021年， 总经费28万元。

⑤  Project partner, 挪威国家重大科技项目” Cooperative Human      Activity Recognition and Localization for Healthcare and Wellbeing（CareWell）”， 项目负责单位挪威Agder 大学。 项目时间2019 年 至2022 年，总经费1800 万挪威克朗，由挪威研究理事会资助。

⑥  Project partner, 参与欧盟EU H2020      lighthouse 重大科技项目“Roll2Rail”。项目合作单位包括Ifsttar， Alstom， DLR， IKLAN等欧盟各大科研机构和公司。项目时间 2015年至2017年，总经费1600万欧元, 由欧盟地平线科研基金资助 （EU Horizon 2020）。

⑦  Project partner, 参与挪威国家重大科技项目” A Wireless      In-Home Healthcare Monitoring System for Supporting Independent Living of      Elderlies (WiCare)”， 项目负责单位挪威Agder 大学。 项目时间2017年 至2020年，总经费1800 万挪威克朗，由挪威研究理事会资助。

⑧  Main project partner， 作为主要合作伙伴参加挪威国际家科技项目” Wireless In-Home      Monitoring System for People with Healthcare Needs”， 项目负责单位挪威Agder 大学。 项目时间2015年，总经费150 万挪威克朗。

⑨ 主持海洋通信实验室建设项目，项目时间 2021年至2024年，总经费1000万。

⑩ 主持引进人才启动经费项目，项目时间 2021年至2025年，总经费200万

本科生课程：

研究生课程：

发表学术论文：50篇（含SCI论文：20篇），详见个人英文网站。部分代表性英文论文如下：

Selected Publications (Updated:2022-05)

Conference Publications:

1. Kun Yang, Ning Zhou, Haoyu Zhang, Tong Peng, Junyi Yu, Changzhen Li, Wei Chen. “Vehicle-to-Vehicle Radio Channel Characteristics for a Long-Distance Urban Congestion Scenario at 5.9 GHz” 2021 IEEE 4th International Conference on Electronic Information and Communication Technology, 2021.

2. Changzhen Li, Wei Chen, Luyao Du, Junyi Yu, Shoufeng Wang, Kun Yang. “Diffraction Loss Modeling for V2V Wireless Channel in Viaduct Scenarios at 5.9 GHz Band” 2021 IEEE 4th International Conference on Electronic Information and Communication Technology, 2021.

3. Kun Yang, Ning Zhou, Terje Røste. “LTE massive MIMO (Pre-5G) test with an updated boat user terminal solution for land-to-boat scenarios in Oslo fjord” November 2020 IOP Conference Series Materials Science and Engineering, 2020.

4. Hanyi Zou, Changzhen Li, Junyi Yu, Wei Chen, Fuxing Chang, Kun Yang. “Impact of Metal Fences on V2V Channel in Suburban Intersection at 5.9 GHz” 2020 International Conference on Computer Information and Big Data Applications (CIBDA),2020.

5. K. Yang, Ning Zhou, Terje Røste, Heiki Neskvern, John Eriksen. “LTE massive MIMO (Pre-5G) test for land-to-boat scenarios in Oslo fjord” Journal of Physics Conference Series, 2019.

6. Changzhen Li, Tongcheng Fan, Junyi Yu, Wei Chen, Li Fang, Kun Yang. “Worse than Rayleigh Fading of V2V Communications in Ramp with Soundproof Walls Scenario” Conference: 2019 5th International Conference on Transportation Information and Safety (ICTIS), 2019.

7. Changzhen Li, Junyi Yu, Wei Chen, Kun Yang, “Shadowing Correlation and A Novel Statistical Model for Inland River Radio Channel”, in Proceedings of the 53rd IEEE International Conference on Communications (IEEE ICC 2019), Shanghai, China, May 20-24. IEEE, 2019.

8. Xuanhao Shu, Changzhen Li, Wei Chen, Junyi Yu, Kun Yang. “Performance Analysis of V2V Radio Channel under Typical Urban Intersection Scenario” 2018 IEEE International Conference on Communication Systems (ICCS), 2018.

9. Kun Yang, Ning Zhou, Terje Røste, Egil Eide, Torbjorn Ekman, Anne Mari Hasfjord, Junyi Yu, Fang Li and Wei Chen, “ Wifi measurement for the autonomous boat ’DRONE 1’ in Trondheimfjord,” The 1st International Conference on Maritime Autonomous Surface Ship (ICMASS 2018), Nov 2018.

10. Kun Yang, Ning Zhou, Andreas F. Molisch, Terje Røste, Egil Eide, Torbjorn Ekman, Junyi Yu,Fang Li and Wei Chen, “Propagation measurements of mobile radio channel over sea at 5.9 GHz,” 16th International Conference on Intelligent Transportation Systems Telecommunications (ITST), Oct 2018.

11. Fang Li, Wei Chen, Ji Wang, Yishui Shui, Kun Yang, Lida Xu, Junyi Yu and Changzhen Li, “Different Traffic Density Connectivity Probability Analysis in VANETs with Measured Data at 5.9 GHz,” 16th International Conference on Intelligent Transportation Systems Telecommunications (ITST), Oct 2018.

12. F. X. Chang, K. Yang, Wei Chen, Changzheng Li, Junyi Yu,“Vehicle-to-Vehicle Channel Characteristics in Municipal Lake Scenarios at 5.9 GHz”, the 12th European Conference on Antennas and Propagation, Eucap2018, London, UK, April. 2018.

13. Li C, Yu J, K. Yang, et al. “Impact of soundproof walls on V2V communication in urban viaduct scenarios at 5.9 GHz band ”, 2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC),

14. Li Fang, Wei Chen, Yishui Shui, Lida Xu, Junyi Yu, Changzhen Li, Kun Yang. “5.9 GHz Vehicular channels comparisons between two traffic status for dense urban area” 2017 IEEE/CIC International Conference on Communications in China (ICCC), 2017.

15. Divitha Seetharamdoo, Rafik Addaci, Vy Xuyen Pham, Christian Chagny, Kun Yang; Jean-Pierre Ghys and Marion Berbineau “Influence of Railway Environment on Antenna Performances at Mm-Wave Frequencies”, the 11th European Conference on Antennas and Propagation, Eucap2017, Paris, France, Mar. 2017.

16. Montréal, Canada, Oct 2017.

17. 16.K. Yang, M. Berbneau, Jean-Pierre Ghys, Yann Cocheril, Divitha Seetharamdoo “Propagation Measurements With Regional Train at 60 GHz for Virtual Coupling application”, the 11th European Conference on Antennas and Propagation, Eucap2017, Paris, France, Mar. 2017.

18. Yu J, Li C, K. Yang, Chen W. “GRG-MAPE and PCC-MAPE based on Uncertainty-Mathematical Theory for Path-Loss Model Selection” Vehicular Technology Conference (VTC Spring), 2016 IEEE 83rd. IEEE, 2016.

19. ZHING LONG, Junyi Yu, Kun Yang, RAN ZHU. “Level Crossing Rate and Average Duration of Fades for TWDP Fading Channel” Fourth International Conference on Advances in Computing, Communication and Information Technology CCIT- 2016, 2016.

20. 19.Z.L. Jiang, J.Y. Yu, K. Yang and W. Chen, "Experimental Multipath Delay Spread and Path Loss Analysis for the Indoor Environment at 5.9 GHz", in IEEE International Conference on Wireless Communications Signal Processing and Networking (WiSPNET) 2016, 23-25 March 2016.

21. C.Z. Li, J.Y. Yu, K. Yang and W. Chen, "Grey System Theory Application in Model Selection of Channel Modeling at 1.4 GHz", in IEEE International Conference on Wireless Communications Signal Processing and Networking (WiSPNET) 2016, 23-25 March 2016.

22. K. Yang, A. F. Molisch, T. Ekman T. Røste, “A Deterministic Round Earth Loss Model for Open-Sea Radio Propagation,” Proc. IEEE 77th Vehicular Technology Conference, VTC2013-spring. Dresden, Germany, June. 2013.

23. T. Røste, K. Yang and F. Bekkadal, “Coastal Coverage for Maritime Broadband Communications”, Proc. OCEANS’13 MTS/IEEE Conference, OCEANS’13. Bergen, Norway, June. 2013.

24. Kun Yang, Terje Roste, Fritz Bekkadal, Torbjörn Ekman. “Experimental multipath delay profile of mobile radio channels over sea at 2 GHz” Antennas and Propagation Conference (LAPC), 2012 Loughborough, 2012.

25. K. Yang, T. Røste, F. Bekkadal, K. Husby and O. Trandem, “Long-distance propagation measurements of mobile radio channel over sea at 2 GHz,” Proc. IEEE 74th Vehicular Technology Conference, VTC2011-Fall. San Francisco, United States, Sept. 2011.

26. K. Yang, T. Ekman, T. Røste, F. Bekkadal, “A quasi-deterministic path loss propagation model for the open sea environment,” Proc. Wireless Personal Multimedia Communications Symposium, WPMC2011. Brest, France, Oct. 2011.

27. K. Yang, T. Røste, F. Bekkadal and T. Ekman, “Land-to-ship radio channel measurements over sea at 2 GHz,” Proc. IEEE International Conference on Wireless Communications, Networking and Mobile Computing, 2010, WiCOM2010. Chengdu, China, Sep. 2010

28. K. Yang, T. Røste, F. Bekkadal and T. Ekman, “Channel characterization including path loss and Doppler effects with sea reflections of mobile radio propagation over sea at 2 GHz,” Proc. Wireless Communications and Signal Processing, WCSP2010. Suzhou, China, Oct. 2010 and granted as the “Best Paper Award”.

29. F. Bekkadal and K. Yang, “Novel Maritime Communications Technologies,” Proc. 10th Mediterranean Microwave Symposium, MMS'2010. Northern Cyprus, Aug. 2010.

30. K. Yang, T. Røste, F. Bekkadal and T. Ekman, “Channel characterization of mobile radio channel over sea at 2 GHz,” Proc. 10th Mediterranean Microwave Symposium, MMS'2010. Northern Cyprus, Aug. 2010.

31. Neji Youssef, M. Pätzold, Kun Yang, “Approximate Theoretical Results for the Distribution of Lognormal Shadow Fading Intervals”, Proc. 4th IEEE International Symposium on Wireless Communication Systems, ISWCS 2007, Trondheim, Norway, Oct. 2007, pp. 204–208.

Journal Publications:

1. Li, C., Yu, J., Xue, J., Chen, W., Wang, S., & Yang, K. “Maritime broadband communication: Wireless channel measurement and characteristic analysis for offshore waters.”, Journal of Marine Science and Engineering, 9(7), [783], 2021.

2. Jiahao Zhang, Kun Yang, Jin Meng, Wei Li. “Dual-Band Dual-Polarized Massive MIMO Array for Maritime Applications” IEEE Sensors Letters, 2021.

3. Fuxing Chang, Changzhen Li, Hongjiang Zheng, Junyi Yu, Kun Yang, Wei Chen. “Measurement-based characteristics of V2V channel for the scenarios of two vehicles meeting” Physical Communication, 2021.

4. Changzhen Li, Shoufeng Wang, Junyi Yu, Wei Chen, Kun Yang. “Distance-dependent V2I wireless channel characteristics and performance in 5G small cell based on measurements” IET Communications, 2020.

5. Hanyi Zou, Changzhen Li, Junyi Yu, Wei Chen, Fuxing Chang, Kun Yang. “Measurement-Based V2V Channel Characteristics at 5.9 GHz on Urban Crossroad” Journal of Physics Conference Series,2020

6. Changzhen Li, Junyi Yu, Wei Chen, Kehao Wang, Shoufeng Wang, Kun Yang, Xiaofeng Wu. “Measurement-Based Wireless Channel Analysis and Modeling for Shipping Environments” IET Microwaves Antennas & Propagation, 2020.

7. Junyi Yu, Wei Chen, Li Fang, Changzhen Li, Kun Yang, Yi Liu, Fuxing Chang. “Channel Measurement and Modeling of the Small-Scale Fading Characteristics for Urban Inland River Environment”，IEEE Transactions on Wireless Communications, 2020.

8. Jiahao Zhang, K. Yang, Egil Eide, Sen Yan, Guy A. E. Vandenbosch. “Simple Triple-Mode Dual-Polarized Dipole Antenna With Small Frequency Separation Ratio” IEEE Antennas and Wireless Propagation Letters, 2019.

9. Junyi Yu, Li Fang, Changzhen Li, Wei Chen, Kehao Wang, K. Yang, Fuxing Chang, “Measurement-based V2V Radio Channel Analysis and Modeling for Bridge Scenarios at 9GHz” IET Communications, 2019.

10. Fuxing Chang, Wei Chen, Junyi Yu,K. Yang. “Vehicle-to-Vehicle Propagation Channel Performance for Overtaking Cases Based on Measurements” IEEE Access, 2019.

11. Alireza Borhani, Matthias Pätzold, K. Yang. “Time-Frequency Characteristics of In-Home Radio Channels Influenced by Activities of the Home Occupant” sensors, 2019.

12. K. Yang, A. F. Molisch, T. Ekman, T. Røste and M. Berbneau,“A Round Earth Loss Model and Small-scale Channel Properties for Open-Sea Radio Propagation,” IEEE Trans on vehicle Technology, 2019.

13. Li Fang, Wei Chen, Yishui Shui, Ji Wang, Kun Yang, Lida Xu, Junyi Yu, Changzhen Li. “Connectivity probability analysis of VANETs at different traffic densities using measured data at 5.9 GHz” Physical Communication, 2019.

14. ChangzhenLi, Junyi Yu, Wei Chen, Kehao Wang, Kun Yang, “Measurements and Analysis of Vehicular Radio Channels in Inland Lake Bridge Area”, IET Microwaves Antennas& Propagation, 2019.

15. Li C, K. Yang, Yu J, et al. “V2V Radio Channel Performance Based on Measurements in Ramp Scenarios at 5.9 GHz”. IEEE Access, 2018, 6: 7503-7514.

16. Shui Y, Li F, Wei Chen, C. F. Xin, K. Yang, Junyi Yu. “Vehicle-to-Vehicle Radio Channel Characteristics for Congestion Scenario in Dense Urban Region at 5.9 GHz”, in International Journal of Antennas and Propagation, 2018.

17. LI F, CHEN W, SHUI Y, C. Z. Li, K. Yang. “5.9 GHz Vehicular Channels Comparisons Between Two Traffic Status for Dense Urban Area”, China Communications, 2018.

18. Li C, Yu J, Wei Chen, K. Yang, F. Li, Y. Shui. “V2V Radio Channel Properties at in ramp scenarios and Ramp on Urban Viaduct at 5.9 GHz”, IET Communications, 2018,vol. 12, no. 17, pp. 2198-2205.

19. Junyi Yu, Wei Chen, Kun Yang*, Changzhen Li, Fang Li and Yishui Shui, " Path Loss Channel Model for Inland River Radio Propagation at 1.4 GHz", International Journal of Antennas and Propagation, vol. 2017, Article ID 5853724, 15 pages, 2017. doi:10.1155/2017/5853724.

20. M. Pätzold and K. Yang, “An Exact Solution for the Level-Crossing Rate of Shadow Fading Processes Modelled by Using the Sum-of-Sinusoids Principle”, Wireless Personal Communications, Special Issue, published online, 2010.

英文著作（含章节）：

中文著作：

1.多天线阵列， 专利号201811083939.3

重要奖项

2021年， 第四届·中国舟山全球海洋经济创业大赛银奖

2021年，浙江好项目优胜奖

2020年，全球互联网双创大赛乌镇赛区一等奖

2020年，全球海洋人才创新创业大赛三等奖

2019年，提交欧盟地平线H2020 SME instrument项目获得卓越项目称号（Seal of Excellence）

2019年，深圳鹏城实验室特邀讲者

2013年度第五批厦门市高层次人才 “双百人才计划”

2011年度国家教育部科技部海外创业人才 春晖杯优胜奖

2010年度挪威科技大学人电子通信系优秀博士代表（IET-ambassadør 2010）

2010年IEEE无线通信及信号处理国际会议中获最佳论文奖（Best paper award）

2007年度武汉理工大学"优秀硕士论文",

2021年，第三届环境建模仿真专业委员会委员

2021 年，浙江省高校本科教学指导委员会电气和电子信息类专业教学指导委员会委员

2021年，浙江省海外引才计划评审专家

2021年，广东省高层次人才评审专家

2021年，浙海大学术委员会委员

2019年，中船智能船舶“标准孪生”国际联合研究国际专家咨询组创始成员之一

IEEE Transactions on Vehicular Technology 杂志评审

IEEE Communications Magazine 杂志评审

IEEE Vehicular Technology Magazine 杂志评审

IEEE Communications Letters 杂志评审

IEEE European Conference on Antennas and Propagation (EuCAP) 会议评审

European Conference on Networks and Communications （EuCNC）会议评审

IEEE Vehicular Technology conference （VTC）会议评审