The global bandwidth inadequacy facing wireless carriers has motivated the exploration of
the underutilized millimeter wave (mm-wave) frequency spectrum for future broadband …

The global bandwidth deficiency facing wireless carriers has motivated the exploration of the
underutilized millimeter wave (mm-wave) frequency spectrum for future broadband cellular …

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 …

Recent advances in 5G wireless technologies calls for larger bandwidth, which motivates
design engineers and researchers to explore a higher frequency spectrum than the existing …

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 …

The current propagation models used for frequency bands less than 6 GHz are not
appropriate and cannot be applied for path loss modeling and channel characteristics for …

The advent of fifth-generation (5G) systems and their mechanics have introduced an
unconventional frequency spectrum of high bandwidth with most falling under the millimeter …

This paper presents the path loss model for 17 GHz mm-Wave frequency spectrum. The
millimeter-wave spectrum has been proposed for future high speed 5G cellular systems with …

This paper presents the propagation characteristics at 60 GHz for fifth generation (5G)
millimeter-wave (mmWave) wireless communication systems. The propagation …

Given the disparity in signal transmission properties for both current bandwidths and
millimeter wave radio frequencies, the present propagation models used for low frequency …