Effective mobility management in heterogeneous networks is significant in ensuring
seamless handovers (HOs) between diverse cell types, especially as users move between …

The massive deployment of small-sized cells for the Fifth Generation (5G) mobile network
will increase the Handover Probability (HOP), potentially causing higher Handover Ping …

Ultra-dense networks represent the trend for future wireless 5G networks, which can provide
high transmission rates in dense urban environments. However, a massive number of small …

One of the most crucial issues in mobile networks is ensuring reliable and stable
connectivity during mobility. In recent years, numerous research has examined Fourth …

Ensuring reliable and stable communication during the movements of mobile users is one of
the key issues in mobile networks. In the recent years, several studies have been conducted …

The extensive use of small base stations (BSs) in the fifth Generation (5G) raises the
probability of handover (HO) which will subsequently increase the incidences of handover …

The fifth generation (5G) network is an upcoming standard for wireless communications that
coexists with the current 4G network to increase the throughput. The deployment of ultra …

A large number of small cells in the next-generation mobile networks is expected to be
deployed to satisfy 5G requirements. Mobility management is one of the important issues …

Heterogeneous network 3GPP LTE deployments are considered as a prime candidate to
meet increasing demand for mobile broadband service coverage and capacity. Such …

Ultra-dense heterogeneous networks (HetNets) are deployment scenarios in the advent of
fifth generation (5G) and beyond network generations. A massive number of small base …