The data growth generated by pervasive mobile devices and the Internet of Things at the network edge (i.e., closer to mobile users), couple with the demand for ultra-low latency, requires high computation resources which are not available at the end-user device. This demands a new network design paradigm in order to handle user demands. As a remedy, a new MN network design paradigm has emerged, called Mobile Edge Computing (MEC), to enable low-latency and location-aware data processing at the network edge. MEC is based on network function virtualization (NFV) technology, where mobile network functions (NFs) that formerly existed in the evolved packet core (EPC) are moved to the access network [i.e., they are deployed on local cloud platform...
This article describes a processing time, energy and computing resources optimization in a Mobile Ed...
A wide range of services, such as improved mobile broadband, extensive machine-type communication, u...
Multi-access edge computing (MEC) has been proposed as an approach capable of addressing latency and...
Future mobile networks (MNs) are required to be flexible with minimal infrastructure complexity, unl...
Due to the tremendous growth in mobile data traffic, cellular networks are witnessing architectural ...
Mobile applications are becoming increasingly computational-intensive while many mobile devices sti...
This thesis investigates resource management procedures, within the Multi-access Edge Computi ng (ME...
Multi-access Edge Computing (MEC) is a key solution that enables operators to open their networks to...
© 2020 Thananjeyan ShanmuganathanMulti-access edge computing (MEC) is the next paradigm to support t...
The world is at the dawn of a new era, characterized by a large number of connected devices and a re...
This thesis collects a selective set of outcomes of a PhD course in Electronics, Telecommunications,...
In this survey, we discuss the role of energy in the design of future mobile networks and, in partic...
There is a substantial growth in the usage of mobile devices. These devices, including smartphones, ...
To support emerging applications such as autonomous vehicles and smart homes and to build an intelli...
Once the dust settled around 4G, 5G mobile networks become the buzz word in the world of communicati...
This article describes a processing time, energy and computing resources optimization in a Mobile Ed...
A wide range of services, such as improved mobile broadband, extensive machine-type communication, u...
Multi-access edge computing (MEC) has been proposed as an approach capable of addressing latency and...
Future mobile networks (MNs) are required to be flexible with minimal infrastructure complexity, unl...
Due to the tremendous growth in mobile data traffic, cellular networks are witnessing architectural ...
Mobile applications are becoming increasingly computational-intensive while many mobile devices sti...
This thesis investigates resource management procedures, within the Multi-access Edge Computi ng (ME...
Multi-access Edge Computing (MEC) is a key solution that enables operators to open their networks to...
© 2020 Thananjeyan ShanmuganathanMulti-access edge computing (MEC) is the next paradigm to support t...
The world is at the dawn of a new era, characterized by a large number of connected devices and a re...
This thesis collects a selective set of outcomes of a PhD course in Electronics, Telecommunications,...
In this survey, we discuss the role of energy in the design of future mobile networks and, in partic...
There is a substantial growth in the usage of mobile devices. These devices, including smartphones, ...
To support emerging applications such as autonomous vehicles and smart homes and to build an intelli...
Once the dust settled around 4G, 5G mobile networks become the buzz word in the world of communicati...
This article describes a processing time, energy and computing resources optimization in a Mobile Ed...
A wide range of services, such as improved mobile broadband, extensive machine-type communication, u...
Multi-access edge computing (MEC) has been proposed as an approach capable of addressing latency and...