Little research has been done to reliably model millimeter wave (mmWave) path loss in rural
macrocell settings, yet, models have been hastily adopted without substantial empirical …

Little is known about millimeter wave (mmWave) path loss in rural areas with tall base
station antennas; yet, as shown here, surprisingly long distances (greater than 10 km) can …

This paper shows the remarkable distances that can be achieved using millimeter wave
communications, and presents a new rural macrocell (RMa) path loss model for millimeter …

This paper provides 28-and 73-GHz urban omnidirectional propagation large-scale path
loss data measured in downtown New York City during the summers of 2012 and 2013, and …

Measurements for future outdoor cellular systems at 28 GHz and 38 GHz were conducted in
urban microcellular environments in New York City and Austin, Texas, respectively …

Millimeter wave (mmWave) frequencies offer the potential for very large capacity increases
from traditional cellular frequencies because of the incredible amount of available spectrum …

The importance of the path loss in millimeter wave channel propagation cannot be taken for
granted in terms of deployment, design, performance assessment, and planning. The path …

Path loss modeling of millimeter waves is regarded as one of the most challenging problems
in the design of the fifth-generation (5G) mobile communication networks due to the high …

Millimeter-wave (mmWave) communications will be used in fifth-generation (5G) mobile
communication systems, but they experience severe path loss and have high sensitivity to …

Fifth-generation (5G) cellular systems are likely to operate in the centimeter-wave (3-30
GHz) and millimeter-wave (30-300 GHz) frequency bands, where a vast amount of …