Attracted by the advantages of multi-access edge computing (MEC) and non-orthogonal
multiple access (NOMA), this article studies the resource allocation problem of a NOMA …

In this letter, we consider the latency minimization problem in NOMA-MEC networks. Each
user offloads partial tasks to the MEC server for remote execution and processes the …

Multi-access edge computing (MEC) can enhance the computing capability of mobile
devices, while non-orthogonal multiple access (NOMA) can provide high data rates …

Mobile edge computing (MEC) is regarded as a key technology to reduce the network
pressure from the computing-intensive and latency-sensitive applications in future wireless …

This paper investigates the resource allocation problem in vehicular communications based
on multi-agent Deep Deterministic Policy Gradient (DDPG), in which each Vehicle-to …

The combination of non-orthogonal multiple access (NOMA) and multi-access edge
computing (MEC) can significantly improve the system performance including …

By offloading computationally intensive tasks of smart end devices to edge servers deployed
at the edge of the network, mobile edge computing (MEC) has become a promising …

Abstract Multi-access Edge Computing (MEC) is an essential technology for expanding
computing power of mobile devices, which can combine the Non-Orthogonal Multiple …

Mobile edge computing (MEC) allows edge servers to be placed at cellular base stations.
App vendors like Uber and YouTube can rent computing resources and deploy latency …

Multi-access mobile edge computing (MEC) allows each user to offload partial task bits to
multiple MEC servers via multi-access radio transmission, enabling the collaboration of …