Add to ORKGInternational audienceThe emerging 5G induces a great diversity of use cases, a multiplication of the number of connections, an increase in throughput as well as stronger constraints in terms of quality of service such as low latency and isolation of requests. To support these new constraints, Network Function Virtualization (NFV) and Software Defined Network (SDN) technologies have been coupled to introduce the network slicing paradigm. Due to the high dynamicity of the demands, it is crucial to regularly reconfigure the network slices in order to maintain an efficient provisioning of the network. A major concern is to find the best frequency to carry out these reconfigurations, as there is a tradeoff between a reduced network congestion a...
In next generation networks, with the increasing number of diverse mobile network service types, a m...
The increasing demand for fast, reliable, and robust network services has driven the telecommunicati...
The revolutionary paradigm of the 5 G network slicing introduces promising market possibilities thro...
International audienceThe emerging 5G induces a great diversity of use cases, a multiplication of th...
It is widely acknowledged that network slicing can tackle the diverse usage scenarios and connectivi...
With the advent of 5G technology, we are witnessing the development of increasingly bandwidth-hungry...
International audienceModern 5G networks promise more bandwidth, less delay and more flexibility for...
Our decade is marked by an increase in the use of mobile networks for industrial and administration ...
International audienceNetwork slicing remains one of the key technologies in 5G and beyond 5G networ...
With the era of the fifth generation (5G) networks, supporting all mobile service users who have dif...
Network slicing, a key enabler for future wireless networks, divides a physical network into multipl...
Abstract Recent 5G trials have demonstrated the usefulness of the Network Slicing concept that deli...
We demonstrate a dynamic network reconfiguration method (ACRO) based on deep reinforcement learning ...
Future-generation wireless networks (5G and beyond) must accommodate surging growth in mobile data t...
Network Slicing and Deep Reinforcement Learning (DRL) are vital enablers for achieving 5G and 6G net...
In next generation networks, with the increasing number of diverse mobile network service types, a m...
The increasing demand for fast, reliable, and robust network services has driven the telecommunicati...
The revolutionary paradigm of the 5 G network slicing introduces promising market possibilities thro...
International audienceThe emerging 5G induces a great diversity of use cases, a multiplication of th...
It is widely acknowledged that network slicing can tackle the diverse usage scenarios and connectivi...
With the advent of 5G technology, we are witnessing the development of increasingly bandwidth-hungry...
International audienceModern 5G networks promise more bandwidth, less delay and more flexibility for...
Our decade is marked by an increase in the use of mobile networks for industrial and administration ...
International audienceNetwork slicing remains one of the key technologies in 5G and beyond 5G networ...
With the era of the fifth generation (5G) networks, supporting all mobile service users who have dif...
Network slicing, a key enabler for future wireless networks, divides a physical network into multipl...
Abstract Recent 5G trials have demonstrated the usefulness of the Network Slicing concept that deli...
We demonstrate a dynamic network reconfiguration method (ACRO) based on deep reinforcement learning ...
Future-generation wireless networks (5G and beyond) must accommodate surging growth in mobile data t...
Network Slicing and Deep Reinforcement Learning (DRL) are vital enablers for achieving 5G and 6G net...
In next generation networks, with the increasing number of diverse mobile network service types, a m...
The increasing demand for fast, reliable, and robust network services has driven the telecommunicati...
The revolutionary paradigm of the 5 G network slicing introduces promising market possibilities thro...