Millimeter-wave indoor propagation characteristics including path loss models and multipath
delay spread values for systems using directional and omnidirectional antennas are …

This paper presented dominant propagation mechanisms in an outdoor open area
environment through the channel measurement and ray-tracing (RT) simulation at an mm …

Millimeter-Wave (mmWave) communication is considered as a key enabling technology for
5G mobile systems. This paper presents a measurement-based analysis of large-scale …

A number of issues are being addressed in prospective millimetre wave (mmWave)
technology for the design of 5G cellular networks. High atmospheric attenuation in the …

This paper presents measurements and statistical characterization of 300-to 320-GHz
desktop channels. The measurements are performed in line-of-sight (LoS) and non-LoS …

In this paper, we present the experimental path loss models for a typical indoor office
propagation scenario. Channel measurements have been performed using a wideband …

A model for predicting path loss from the microwave band to the millimeter wave band for
street microcell environments is presented. Developed on the basis of measurement results …

This paper presents a simple and yet effective path loss channel fading model, particularly
suitable for 5G mmW propagation in indoor or outdoor environment. Model improvements …

The exponential growth of the mobile users in ubiquitous manner has made it a timely need
to attain increased capacity, higher data rate and decreased latency for better quality of …

This paper proposes a method to predict line-of-sight (LOS) path loss in buildings. We
performed measurements in two different types of buildings at a frequency of 1.8 GHz and …