Path loss model based on cluster at 28 GHz in the indoor and outdoor environments
L Zhou, L Xiao, Z Yang, J Li, J Lian, S Zhou - Science China Information …, 2017 - Springer
L Zhou, L Xiao, Z Yang, J Li, J Lian, S Zhou
Science China Information Sciences, 2017•SpringerThis paper presents 28 GHz path loss model based on cluster obtained from channel
measurement campaigns with rotating platforms and directional antennas in the indoor and
outdoor environments. The transmitter (TX) and receiver (RX) both sweep a large range of
angles in the azimuth and elevation plane on account of covering main propagation paths
and measuring burden. As the sequence number of cluster increases, the path loss
exponents (PLEs) increase while shadow factors also have a growing tendency. The PLE of …
measurement campaigns with rotating platforms and directional antennas in the indoor and
outdoor environments. The transmitter (TX) and receiver (RX) both sweep a large range of
angles in the azimuth and elevation plane on account of covering main propagation paths
and measuring burden. As the sequence number of cluster increases, the path loss
exponents (PLEs) increase while shadow factors also have a growing tendency. The PLE of …
Abstract
This paper presents 28 GHz path loss model based on cluster obtained from channel measurement campaigns with rotating platforms and directional antennas in the indoor and outdoor environments. The transmitter (TX) and receiver (RX) both sweep a large range of angles in the azimuth and elevation plane on account of covering main propagation paths and measuring burden. As the sequence number of cluster increases, the path loss exponents (PLEs) increase while shadow factors also have a growing tendency. The PLE of all-clusters is the least because of multi propagation paths, and the LOS PLEs of corridor scenario are less compared with that of office scenario because of corridor’s long and narrow structure. This improved model not only considers cluster characteristics, but also unites directional and omnidirectional models into the same framework, which to some extent improves the 5G mmWave channel model.
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