In this paper, two large-scale fading path loss models are presented based on indoor and
outdoor channel measurements at 73 GHz. The line-of-sight millimeter-wave propagation …

This paper presents a large scale fading channel model at the 60 GHz band. This model is
based on the measurement campaign that our team conducted at Boise Airport and Boise …

Millimeter-wave links, which will be applied in 5G wireless communication, can suffer severe
attenuation and multipath fading in indoor channels. Accurate indoor channel modeling for …

The unused millimeter-wave (mm-wave) spectrum offers a superb opportunity to increase
mobile broadband capacity, this is due to the enormous amount of available raw bandwidth …

This paper presents millimeter-wave propagation measurements for urban micro-cellular
and indoor office scenarios at 28 GHz and 73 GHz, and investigates the corresponding path …

Millimeter-wave frequency bands have been considered as candidate bands for the next
generation (5G) mobile communications. For successful 5G development, studying …

To fully exploit the millimeter-wave bands for the fifth generation cellular systems, an
accurate understanding of the channel propagation characteristics is required, and hence …

The use of the Millimeter Wave (mm-wave) frequency band brings various scattering, fading,
atmospheric absorption and penetration losses issues. These issues can be mitigated easily …

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 …

This paper presents millimeter wave (mmWave) measurements in an indoor environment.
The high demands for the future applications in the 5G system require more capacity. In the …