University of Southern California WiDeS - Wireless Devices and Systems Group The USC Andrew and Erna Viterbi School of Engineering USC

Rui Wang

                                                     

Biography:



Rui Wang received the B.S. degree from Southeast University, Nanjing, China in 2010 and the M.S. degree (Hons.) from the University of Southern California, Los Angeles, CA USA in 2012, where he is currently pursuing the Ph.D. degree with the WiDeS Group at Ming-Hsieh Department of Electrical Engineering, University of Southern California. His research interests include wireless channel measurements, modeling for vehicle-to-vehicle, mm-wave communication systems, and high-resolution parameter extraction algorithms for channel measurement evaluation.

Linkedin: http://www.linkedin.com/in/ruiwang-usc
 
 

 

Publication:


Conference Papers:
 
C1. R. Wang, C. U. Bas, O. Renaudin, S. Sangodoyin, U. T. Virk, and A. F. Molisch, “A real-time MIMO channel sounder for vehicle-to-vehicle propagation channel at 5.9 GHz,” in IEEE International Conference on Communications (ICC). IEEE, 2017 
 
C2. R. Wang, O. Renaudin, C.U. Bas, S. Sangodoyin, and A. F. Molisch; “Double-Directional Channel Characterization of Truck-to-Truck Communication in Urban Environment”, IEEE VTC-FALL 2017 (accepted)
 
C3. R. Wang, O. Renaudin, R.M. Bernas, and A.F. Molisch, "Efficiency Improvement for Path Detection and Tracking Algorithm in a Time-Varying Channel." Vehicular Technology Conference (VTC Fall), 2015 IEEE 82nd, pp. 1-5. IEEE, 2015.
 
C4. R. Wang, S. Sangodoyin, A. F. Molisch, J. Zhang, Y. H. Nam, J. Lee, "Elevation characteristics of outdoor-to-indoor macrocellular propagation channels." 2014 IEEE 79th Vehicular Technology Conference (VTC Spring), pp. 1-5. IEEE, 2014
 
C5. R. Wang, C. U. Bas, S. Sangodoyin, S. Hur, K. Whang, J. Park, J. Zhang and A. F. Molisch; “Stationarity Region of Mm-Wave Channel Based on Outdoor Microcellular Measurements at 28 GHz”, IEEE MILCOM 2017 (accepted)
 
C6. C. U. Bas, R. Wang, S. Sangodoyin, S. Hur, K. Whang, J. Park, J. Zhang and A. F. Molisch; “28 GHz Microcell Measurement Campaign for Residential Environment”, IEEE Globecom 2017 (accepted)
 
C7. C. U. Bas, R. Wang, D. Psychoudakis, T. Henige, R. Monroe, J. Park, J. Zhang and A. F. Molisch; “A Real-Time Millimeter-Wave Phased Array MIMO Channel Sounder”, IEEE VTC-FALL 2017 (accepted)
 
C8. V. Kristem, C. U. Bas, R. Wang and A. F. Molisch; “Outdoor Macro-Cellular Channel Measurements and Modeling in the 3-18 GHz Band”, IEEE Globecom 2017 (accepted)
 
C9. Z. Li, R. Wang, A. F. Molisch, ``Shadowing in urban environments with microcellular or peer-to-peer links”, in Proc. 6th EuCAP, Prague, Czech Republic, March 2012, pp. 44-48
 
C10. A. F. Molisch, A. Karttunen, R. Wang, C. U. Bas, S. Hur, J. Park, and J. Zhang, “Millimeter-wave channels in urban environments.” In 2016 10th European Conference on Antennas and Propagation (EuCAP), pp. 1-5. IEEE, 2016.
 
C11. A. Karttunen, A. F. Molisch, R. Wang, S. Hur, J. Zhang, and J. Park, “Distance dependence of path loss models with weighted fitting,” in IEEE International Conference on Communications (ICC), pp. 1-6. IEEE, 2016.
 

Journal Papers:

J1. R. Wang, O. Renaudin, C. U. Bas, S. Sangodoyin, and A. F. Molisch, “High resolution parameter estimation for time-varying double directional V2V channel,” Wireless Communications, IEEE Transactions on, 2017.

J2. R. Wang, O. Renaudin, C. U. Bas, S. Sangodoyin, A. F. Molisch, “Optimal array switching sequence for the TDM channel sounding in a fast time-varying channel,” to be submitted.

J3. V. Kristem, C. U. Bas, R. Wang and A. F. Molisch; “Outdoor Wideband Channel Measurements and Modeling in the 3-18 GHz Band”, submitted

J4. A. Karttunen, C. Gustafson, A. F. Molisch, R. Wang, S. Hur, J. Zhang, J. Park, “Path Loss models with distance-dependent weighted fitting and estimation of censored path loss data.” IET Microwaves, Antennas & Propagation, 10 (14), 1467-1474

J5. A. Ansuman, E. A. Safadi, M. K. Samimi, R. Wang, G. Caire, T. S. Rappaport, and A. F. Molisch. "Joint Spatial Division and Multiplexing for Wave Channels." IEEE Journal on Selected Areas in Communications 32, no. 6 (2014): 1239-1255.