Beyond Fifth Generation (B5G) networks are expected to be the most efficient cellular
wireless networks with greater capacity, lower latency, and higher speed than the current …

Besides advanced telecommunications techniques, the most prominent evolution of wireless
networks is the densification of network deployment. In particular, the increasing access …

In fifth-generation ultradense heterogeneous network, backhaul plays an important role to
provide connection to core networks for small base stations (SBSs). With the densification …

To improve energy efficiency and reduce the interference to macro users (MUs), this paper
investigates the robust resource allocation (RA) problem for maximizing the interference …

Heterogeneous small-cell networks have been identified as key technological components
in accomplishing objectives of the fifth generation wireless communication system, in which …

To reduce the interference among small cells of Ultra-Dense Networks (UDN), an improved
Clustering-Assisted Resource Allocation (CARA) scheme is proposed in this paper. The …

Massive connectivity of billions of communicating devices for fifth-generation (5G) and
beyond networks requires the deployment of self-sustaining, maintenance-free, and low-cost …

The classical approach of avoiding or ignoring interference in wireless networks cannot
accommodate the ambitious quality-of-service (QoS) demands of ultradense cellular …

In order to cope with the forecasted 1000× increase in wireless capacity demands by 2030,
network operators will aggressively densify their network infrastructure to reuse the spectrum …

Ultra-dense networks (UDNs), which can provide extremely high throughput and data rates,
have been considered as one of the key techniques for the fifth generation mobile networks …