M Khatun, C Guo, D Matolak… - 2019 IEEE Global …, 2019 - ieeexplore.ieee.org
In this paper, we present millimeter-wave (mmWave) penetration loss measurements and analysis at E-bands-73 GHz and 81 GHz. Penetration loss was measured for common …
H Zhao, R Mayzus, S Sun, M Samimi… - 2013 IEEE …, 2013 - ieeexplore.ieee.org
In this paper, we present reflection coefficients and penetration losses for common building materials at 28 GHz for the design and deployment of future millimeter wave mobile …
Outdoor to indoor penetration loss is one of the crucial challenges faced at millimeter-wave frequencies. This paper presents the results from 28-GHz channel sounding campaigns …
The millimeter-wave frequency bands, especially the license free band at 60 GHz, is a candidate for future broadband access links. Path loss measurements have been performed …
GR MacCartney, S Deng… - 2016 IEEE 83rd vehicular …, 2016 - ieeexplore.ieee.org
This paper presents large-scale path loss models based on extensive ultra-wideband millimeter-wave propagation measurements performed at 28 GHz and 73 GHz in three …
This paper provides indoor reflection, scattering, transmission, and large-scale path loss measurements and models, which describe the main propagation mechanisms at millimeter …
The 3.5 GHz band is a strong candidate for future urban micro cell deployment with base station antennas located below rooftop. Compared to other frequency bands, propagation in …
As the mobile cellular carriers are currently facing a spectrum crunch, researchers are concentrating on higher carrier frequency bands, such as E-band (71-76 GHz and 81-86 …
FD Diba, MA Samad, DY Choi - IEEE Access, 2021 - ieeexplore.ieee.org
The millimeter-wave (mm-wave) frequency band is projected to play a critical role in next- generation wireless networks owing to its large available bandwidth. Despite the theoretical …