Link adaptation technology has been introduced in new generation transmission systems such as 3-G or 4-G, optimizing both their throughput and their power consumption.
Link adaptation technology has been introduced in new generation transmission systems such as 3-G or 4-G optimizing both their throughput and their power consumption.
The ever increasing complexity of networks dramatically increases the challenges faced by service providers to analyze network behavior and (re)provision resources to support multiple complex distr
Network slicing is one of the key features of 5G mobile networks to cope with the diverging network requirements introduced by new use cases, like the IoT, autonomous driving and the Industry of th
Network Slicing is a key-feature of the fifth generation of mobile networks (5G), to overcome the challenge of increasingly diverging network requirements emerging from new use-cases like the IoT,
Network Slicing allows to simultaneously support the specific needs of vertical industries with a diverse range of networking and computing requirements.
We present a methodology for network slices life- cycle management and orchestration considering end-to-end network slices.
Network slicing has been identified as the backbone of the rapidly evolving 5G technology.
Network slicing has been identified as the backbone of the rapidly evolving 5G technology.
We argue for network slicing as an efficient solution that addresses the diverse requirements of 5G mobile networks, thus providing the necessary flexibility and scalability associated with future
