Title :
Ultra broadband indoor channel measurements and calibrated ray tracing propagation modeling at THz frequencies
Author :
Priebe, Sebastian ; Kannicht, Marius ; Jacob, Mathews ; Kurner, Thomas
Author_Institution :
Inst. fur Nachrichtentechnik, Tech. Univ. Braunschweig, Braunschweig, Germany
Abstract :
Ultra broadband communication systems operated at THz frequencies will require the thorough knowledge of the propagation channel. Therefore, an extensive measurement campaign of 50 GHz wide indoor radio channels is presented for the frequencies between 275 and 325 GHz. Individual ray paths are resolved spatially according to angle of arrival and departure. A MIMO channel is recorded in a 2×2 configuration. An advanced frequency domain ray tracing approach is used to deterministically simulate the THz indoor propagation channel. The ray tracing results are validated with the measurement data. Moreover, the measurements are utilized for the calibration of the ray tracing algorithm. Resulting ray tracing accuracies are discussed.
Keywords :
MIMO communication; broadband networks; calibration; direction-of-arrival estimation; indoor radio; ray tracing; telecommunication channels; MIMO channel; THz frequencies; THz indoor propagation channel; advanced frequency domain ray tracing approach; angle of arrival; angle of departure; calibrated ray tracing propagation modeling; individual ray paths; indoor radio channels; propagation channel; ray tracing algorithm; ultrabroadband communication systems; ultrabroadband indoor channel measurements; Antenna measurements; Bandwidth; Broadband communication; Frequency measurement; MIMO; Ray tracing; Spatial resolution; MIMO channel measurements; THz communications; propagation modeling; ray tracing propagation simulations; ultra broadband channel measurements;
Journal_Title :
Communications and Networks, Journal of
DOI :
10.1109/JCN.2013.000103
