For 5G communications, millimeter-wave frequency bands are considered strong candidates
for new spectra. However, propagation studies in these bands are still in their initial stages …

Propagation characteristics of millimeter-wave are being widely studied for utilization of the
fifth generation (5G) mobile communication systems. To overcome the severe path loss on …

With the growing relevance of the lower end of the millimeter wave band, a precise
characterization of wireless channels in this frequency range is of interest. We conducted an …

Millimeter-wave propagation characteristics and channel models are being recently studied
for applicability of the fifth generation (5G) mobile communication systems. To overcome the …

Channel measurements and path-loss modelling for typical indoor environments at 28-GHz
band, in both line-of-sight and non-line-of-sight scenarios, are conducted. An automatic …

To meet 5G requirements, industries are looking forward to a new set of frequency allocation
in the millimeter spectrum space, where there is huge amount of bandwidth for wireless …

To meet the increasing demand for 5G high data-rate communications, millimeter-wave
frequency bands are expected to be utilized. However, the existing channel models are not …

Although the deployment of 5G networks has already started, there are still open questions
regarding propagation at millimeter-wave frequency bands. Several propagation campaigns …

Since millimeter-wave (mmWave) frequency bands are strong candidates in new spectra for
5G mobiles, standardized propagation channel models are anticipated to be developed for …

Several millimeter-wave frequency bands have been identified to be used in the 5G wireless
communication standard. The use of such high frequencies is one of the pillars of this new …