ULTRAWIDEBAND 3D MMWAVE CHANNEL SOUNDING FOR 5G| Session Chairs: | Mathieu Herben, Robert Bultitude |
As personal indoor and mobile radio communications (PIMRC) systems evolve, and their users demand better quality of service at higher and higher data rates, it becomes increasingly more important to make efficient use of the radio spectrum. To do this, it is imperative to have accurate radio propagation and radio channel models available for all aspects of a radio link that are pertinent to digital communications. This requires knowledge of transmission loss, delay dispersion and frequency dispersion, and more recently, angular dispersion. In addition, it is important to know how these radio link characteristics vary in space and time for different environments, such as those with significant vegetation. This session aims at presenting the latest results on radio propagation measurements, data analysis and channel modeling to estimate and model the characteristics of various radio links, including but not limited to, those associated with: outdoor (macro, micro, small-cell, and picocell), indoor, outdoor-to-indoor, satellite-to-mobile, and vehicle-to-vehicle radio propagation scenarios in a range of different operating environments.
13:40 F10.1 ULTRAWIDEBAND 3D MMWAVE CHANNEL SOUNDING FOR 5G
R. Müller, D. A. Dupleich, C. Schneider, R. Herrmann, R. S. Thomä
TU Ilmenau, Ilmenau, Germany
14:00 F10.2 EXPERIMENTS, DATA ANALYSIS, AND MODELLING OF PROPAGATION LOSS WHEN LIMITED SPACE INHIBITS SPATIAL AVERAGING FOR MULTIPATH MITIGATION
R. J. C. Bultitude, M. Zhang
Radio Propagation Research, Communications Research Centre Canada, Ottawa, Ontario, Canada
14:20 F10.3 DIRECTIONAL CHARACTERIZATION OF THE 60 GHZ INDOOR-OFFICE CHANNEL
D. Dupleich1, F. Fuschini2, R. Mueller1, E. Vitucci2, C. Schneider1, V. Degli Esposti2, R. Thomä1
1EMT, TU Ilmenau, Ilmenau, Germany
2University of Bologna, Bologna, Italy
14:40 F10.4 DENSE MULTIPATH DEPOLARIZATION IN OUTDOOR AND INDOOR RADIO TRANSMISSIONS
E. M. Vitucci1, F. Mani2, V. Degli-Esposti1, C. Oestges3
1DEI, University of Bologna, Cesena, Italy
2Comelec, Telecom ParisTech, Paris, France
3ICTEAM, Université catholique de Louvain, Louvain la Neuve, Belgium
15:00 F10.5 RADIO CHANNEL PROPAGATION MEASUREMENTS USING A MULTIBAND AGILE CHIRP SOUNDER
S. Salous, A. Cheema, X. Raimundo
School of Engineering and Computing Sciences, University of Durham, Durham, United Kingdom
15:20 F10.6 THE OPTIMIZED POLARIZATION FOR INDOOR MIMO BASED ON CROSS POLARIZATION LOSS AND NEAR EARTH LOSS
F. Zhou1,2, Y. -G. Gao1, A. Rao2, D. Shi1, Y. -M. Shen1, Y. -Y. Zhang2, A. -L. Meng2
1School of Electronic Engineering, Beijing University of Posts and Telecommunications, Beijing, China
2China Telecommunication Technology Labs, China Academy of Telecommunication Research of Ministry of Industry and Information Technology, Beijing, China