The millimeter-wave propagation characteristics at 60 GHz in indoor environment are
simulated and analyzed based on the method of shooting and bouncing ray tracing/image …

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 …

A study of Sub 1GHz urban path loss models is presented in this paper. This particular
frequency band provides optimal transmission characteristics for wireless communication …

The millimeter-wave (mmWave) is expected to deliver a huge bandwidth to address the
future demands for higher data rate transmissions. However, one of the major challenges in …

In the 5G-Advanced and beyond systems, multi-frequency cooperative networking will
become an inevitable development trend. However, the channels have not been fully …

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 …

In order to achieve higher data rate for the next-generation 5G communication network,
utilization of millimeter waves (mm-waves) frequency bands is the major advancement for …

Millimeter wave (mmWave) frequencies offer the potential for very large capacity increases
from traditional cellular frequencies because of the incredible amount of available spectrum …

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 …

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