With the rapid increase in the number of mobile users, wireless access technologies are
evolving to provide mobile users with high data rates and support new applications that …

Many mobile and pervasive applications avail cloud services to reduce overheads in on-
device computation. The performance of these services depends on the available bandwidth …

Ultra-dense edge computing is expected to provide delay-sensitive and computational-
intensive services for mobile devices. Due to the complexity and unpredictability of the …

To overcome long propagation delays for data exchange between the remote cloud data
center and end devices in Mobile Cloud Computing (MCC), Mobile Edge Computing (MEC) …

In recent years, the need for computation-intensive applications in mobile networks requiring
more storage, powerful processors, and real-time responses has risen substantially …

The reliability and availability of network connectivity, which significantly varies with mobility,
is crucial in Connected, Cooperative and Automated Mobility (CCAM). Handover and …

The work on perfecting the rapid proliferation of wireless technologies resulted in the
development of wireless modeling standards, protocols, and control of wireless …

The experience of users in Mobile Edge Computing (MEC) highly depends on data
offloading whose major bottle neck is the design of handover scheme. Existing research …

High-speed internet has boosted clients' traffic needs. Content caching on mobile edge
computing (MEC) servers reduces traffic and latency. Caching with MEC faces difficulties …

To address the performance limitations caused by the insufficient computing capacity and
energy of edge internet of things devices (IoTDs), we proposed a multi-unmanned aerial …