Future wireless networks are expected to be dense and employ a higher frequency
spectrum such as millimeter wave (mmwave) to support higher data rates. In a dense urban …

Numerous recent studies on future mobile communications have considered and proposed
millimeter wave (mmWave) communication as a key enabling technology for the realization …

Millimetre-wave (mm-wave) bands are considered an interesting candidate in the fifth
generation (5G) mobile networks due to the high available bandwidth at these bands …

This paper presents 28 GHz and 73 GHz millimeter-wave propagation measurements
performed in a typical office environment using a 400 Megachip-per-second broadband …

Wireless systems require increasingly large system bandwidths that are only available at
millimeter-wave frequencies. Such spectrum bands offer the potential for multi-gigabit-per …

This article presents empirically-based large-scale propagation path loss models for fifth-
generation cellular network planning in the millimeter-wave spectrum, based on real-world …

It has been widely speculated that the performance of the next generation Internet of Things
(IoT) based wireless network should meet a transmission speed on the order of 1000 times …

In this paper, radio propagation measurements and analysis are presented to investigate the
channel characteristics of millimeter wave (mmWave) transmission for outdoor cellular …

The critical rule to achieve extremely high peaks of data transmission is the availability of a
tremendous amount of bandwidth. The super high frequency (SHF) and the millimeter-wave …

The 5G network has been intensively investigated to realize the ongoing early deployment
stage as an effort to match the exponential growth of the number of connected users and …