Recently, moving networks, including mobile small cells (MSCs), have been introduced to
improve the QoS experienced by users inside public transport and connected vehicles …

A dense deployment of small cells is one of the key characteristics envisioned for future 5G
mobile networks in order to provide the required capacity increase. To cut cabling costs …

Coordinated multipoint joint transmission (JT) is a vital technique of the fifth-generation (5G)
networks to increase throughput but causes a significant burden on network backhaul …

Macrocells are expected to be densely overlaid by small cells (SCs) to meet increasing
capacity demands. Due to their dense deployment, some SCs will not be connected directly …

Ultradense Network (UDN) with small cells is a key feature to begin a new era of 5G
communication, which provides higher data rate, and accommodate explosive mobile traffic …

Abstract Ultra-Dense Network (UDN) is considered to be the key enabler for realizing
capacity goals set by 5G. The major concern in UDN deployment is the backhaul network …

Cell densification has recently been considered as a solution to the high bandwidth demand
from the ever-increasing number of connected devices as well as the emerging bandwidth …

The deployment of millimeter-wave (mmWave) 5G New Radio (NR) networks is hampered
by the properties of the mmWave band, such as severe signal attenuation and dynamic link …

With the increasing densification of cellular networks, it has become exceedingly difficult to
provide traditional fiber backhaul access to each cell site, which is especially true for small …

Our vision of the future world is one wherein everything, anywhere and at any time, can
reliably communicate in real time. 5G, the fifth generation of cellular networks, is anticipated …