5g mobile communication

DeepCog: Cognitive Network Management in Sliced 5G Networks with Deep Learning

Network slicing is a new paradigm for future 5G networks where the network infrastructure is divided into slices devoted to different services and customized to their needs. With this paradigm, it is essential to allocate to each slice the needed …

DeepCog: Cognitive Network Management in Sliced 5G Networks with Deep Learning

Network slicing is a new paradigm for future 5G networks where the network infrastructure is divided into slices devoted to different services and customized to their needs. With this paradigm, it is essential to allocate to each slice the needed …

A Future-Proof Architecture for Management and Orchestration of Multi-Domain NextGen Networks

The novel network slicing paradigm represents an effective turning point to operate future wireless networks. Available networking and computational resources may be shared across different (instantiations of) services tailored onto specific vertical …

A Future-Proof Architecture for Management and Orchestration of Multi-Domain NextGen Networks

The novel network slicing paradigm represents an effective turning point to operate future wireless networks. Available networking and computational resources may be shared across different (instantiations of) services tailored onto specific vertical …

A Machine Learning approach to 5G Infrastructure Market optimization

It is now commonly agreed that future 5G Networks will build upon the network slicing concept. The ability to provide virtual, logically independent ``slices'' of the network will also have an impact on the models that will sustain the business …

CARES: Computation-Aware Scheduling in Virtualized Radio Access Networks

In a virtualized radio access network (RAN), baseband processing is performed by software running in cloud-computing platforms. However, current protocol stacks were not designed to run in this kind of environment, the high variability on the …

5G-MoNArch Use Case for ETSI ENI: Elastic Resource Management and Orchestration

5G networks will grant spectacular improvements of the most relevant Key Performance Indicators (KPIs) while allowing resource multi-tenancy through network slicing. However, the other side of the coin is represented by the huge increase of the …

5G-MoNArch Use Case for ETSI ENI: Elastic Resource Management and Orchestration

5G networks will grant spectacular improvements of the most relevant Key Performance Indicators (KPIs) while allowing resource multi-tenancy through network slicing. However, the other side of the coin is represented by the huge increase of the …

Identifying 5G System Enhancements: Enabling Technologies for Multi-Service Networks

The fifth generation (5G) of mobile and wireless communications networks aims at addressing a diverse set of use cases, services, and applications with a particular focus on enabling new business cases via network slicing. The development of 5G has …

POSENS: A Practical Open Source Solution for End-to-End Network Slicing

Network slicing represents a new paradigm to operate mobile networks. With network slicing, the underlying infrastructure is ``sliced'' into logically separate networks that can be customized to the specific needs of their tenant. Hands-on …