Conference papers

1. Kun Yang, Ning Zhou, Terje Røste, Junyi Yu, Fang Li, Wei Chen, Egil Eide, Torbjorn Ekman, Changzhen Li, Fuxing Chang, “High-speed Vehicle-to-Vehicle Radio Channel Characteristics for Suburban and Municipal Lake Region at 5.9 GHz,” IEEE EuCAP2019, March 2019. 
2. 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. 
3. Changzhen Li, Tongcheng Fan, Junyi Yu, Wei Chen, Fang Li, Kun Yang. “Worse than Rayleigh Fading of V2V Communications in Ramp with Soundproof Walls Scenario”, in Proceedings of the 5th International Conference on Transportation Information and Safety (ICTIS 2019), Liverpool, UK, July 14-17. IEEE, 2019.
4. 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. 
5. 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. 
6. 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. 
7. 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. 
8. 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. 
9. 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. 
10. 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), Montréal, Canada, Oct 2017. 
11. 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.
12. 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. 
13. 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. 
14. 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. 
15. 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. 
16. 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. 
17. 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. 
18. 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”. 
19. 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.
20. F. Bekkadal and K. Yang, “Novel Maritime Communications Technologies,” Proc. 10th Mediterranean Microwave Symposium, MMS'2010. Northern Cyprus, Aug. 2010. 
21. 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 
22. 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 Papers

1. K. Yang, A. F. Molisch, T. Ekman, T. Røste and M. Berbneau,“A Deterministic Round Earth Loss Model and Small-scale Channel Properties for Open-Sea Radio Propagation,” IEEE Trans on vehicle Technology, 2019.
2. Alireza Borhani , Matthias Pätzold and Kun Yang， “Time-Frequency Characteristics of In-Home Radio Channels Influenced by Activities of the Home Occupant,” Sensors 2019, 19(16), 3557.
3. Junyi YU, Fang LI, Changzhen Li, Wei Chen, kehao Wang, Kun YANG, Fuxing Chang, “Measurement-based V2V Radio Channel Analysis and Modeling for Bridge Scenarios at 5.9GHz,” IET Communications, 2018.
4. 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.
5. 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.
6. 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, 2008. 
7. 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.
8. Li C, Yu J, Wei Chen, K. Yang, F. Li, Y. Shui. “V2V Radio Channel Properties at Urban Intersection and Ramp on Urban Viaduct at 5.9 GHz”, IET Communications, 2018,vol. 12, no. 17, pp. 2198-2205.
9. 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.
10. ChangzhenLi, Junyi Yu, Wei Chen, Kehao Wang, Kun Yang, “Measurements and Analysis ofVehicular Radio Channels in Inland Lake Bridge Area”, IET Microwaves Antennas& Propagation, 2019. 
11. Fang Li, Wei Chen, Yishui Shui, Kun Yang, Lida Xu, Junyi Yu, Changzhen Li.“Connectivity Probability Analysis of VANETs at Different Traffic Densities using Measured Data at 5.9 GHz” [J].Physical Communication, 2019.
12. Fuxing Chang, Fang Yang, Wei Chen, Junyi Yu, Changzhen Li, Fang Li and Kun Yang, “Vehicle-to-Vehicle Propagation Channel Performance for Overtaking Cases Based on Measurements”,  IEEE Access, 2019, Online ISSN: 2169-3536, Digital Object Identifier: 0.1109/ACCESS.2019.2938978.
13. Jiahao. Zhag, K. Yang*, Egil Eide, Sen Yang, Guy Vandenbosch, "Simple Triple-Mode Dual-Polarized Dipole Antenna with Small Frequency Separation Ratio", IEEE Antennas and Wireless Propagation Letters, 2019.