Title :
28 GHz channel modeling using 3D ray-tracing in urban environments
Author :
Sooyoung Hur ; Sangkyu Baek ; ByungChul Kim ; JeongHo Park ; Molisch, Andreas F. ; Haneda, Katsuyuki ; Peter, Michael
Author_Institution :
Samsung Electron., South Korea
Abstract :
In this paper, we analyze the radio channel characteristics at mmWave frequencies for 5G cellular communications in urban scenarios. 3D-ray tracing simulations in the downtown areas of Ottawa and Chicago are conducted in both the 2 GHz and 28 GHz bands. Each area has two different deployment scenarios, with different transmitter height and different density of buildings. Based on the observations of the ray-tracing experiments, important parameters of the radio channel model, such as path loss exponent, shadowing variance, delay spread and angle spread, are provided, forming the basis of a mmWave channel model. Based on the analysis and the 3GPP 3D-Spatial Channel Model (SCM) framework, we introduce a a preliminary mmWave channel model at 28 GHz.
Keywords :
5G mobile communication; cellular radio; radio receivers; radio transmitters; ray tracing; telecommunication computing; wireless channels; 3D ray-tracing; 3GPP 3D-spatial channel model framework; 5G cellular communications; Chicago; Ottawa; angle spread; channel modeling; delay spread; deployment scenarios; frequency 2 GHz; frequency 28 GHz; mmWave channel model; mmWave frequencies; path loss exponent; radio channel characteristics; radio channel model; shadowing variance; transmitter height; urban environments; urban scenarios; Analytical models; Channel models; Delays; Ray tracing; Solid modeling; Three-dimensional displays; Urban areas; 28GHz; 3D-channel model; mmWave; ray-tracing;
Conference_Titel :
Antennas and Propagation (EuCAP), 2015 9th European Conference on
Conference_Location :
Lisbon
