With the rapid new advancements in technology, there is an enormous increase in devices and their versatile need for services. Fifth-generation (5G) cellular networks (5G-CNs) with network slicing (NS) have emerged as a necessity for future mobile communication. The available network is partitioned logically into multiple virtual networks to provide an enormous range of users’ specific services. Efficient resource allocation methods are critical to delivering the customers with their required Quality of Service (QoS) priorities. In this work, we have investigated a QoS based resource allocation (RA) scheme considering two types of 5G slices with different service requirements; (1) enhanced Mobile Broadband (eMBB) slice that requires a very ...
Mobile traffic generated by a variety of services is rapidly increasing in volume. Both network and ...
Fifth-generation (5G) communication technology is intended to offer higher data rates, outstanding u...
Proceeding of: IEEE Conference on Computer Communications, INFOCOM 2017, Atlanta, Georgia, USA, 1-4 ...
Fifth Generation (5G) cellular networks aim to overcome the pressing demands posed by dynamic Qualit...
Fifth Generation (5G) cellular networks aim to overcome the pressing demands posed by dynamic Qualit...
International audienceEvery second, a large amount of digital data is transported through infinite t...
Network slicing is crucial in 5G and its evolution concerning user-centric services. By allocating i...
5G mobile network is predictable to assist flexible requirements henceforth dynamically allocate net...
Network slicing is emerging as a promising solution for end-to-end resource management and orchestra...
5G networks are designed not only to transport data, but also to process them while supporting a vas...
Network slicing makes it possible for future applications with a variety of adaptability requirement...
Network slicing is an integral part of 5G whichsupports next-generation wireless appli...
The upcoming Beyond Fifth Generation networks aim to meet network services characterized by low late...
Serving heterogeneous traffic demand requires efficient resource utilization to deliver the promise...
Slice Differentiator (SD) machine learning techniques are provided herein to efficiently allocate re...
Mobile traffic generated by a variety of services is rapidly increasing in volume. Both network and ...
Fifth-generation (5G) communication technology is intended to offer higher data rates, outstanding u...
Proceeding of: IEEE Conference on Computer Communications, INFOCOM 2017, Atlanta, Georgia, USA, 1-4 ...
Fifth Generation (5G) cellular networks aim to overcome the pressing demands posed by dynamic Qualit...
Fifth Generation (5G) cellular networks aim to overcome the pressing demands posed by dynamic Qualit...
International audienceEvery second, a large amount of digital data is transported through infinite t...
Network slicing is crucial in 5G and its evolution concerning user-centric services. By allocating i...
5G mobile network is predictable to assist flexible requirements henceforth dynamically allocate net...
Network slicing is emerging as a promising solution for end-to-end resource management and orchestra...
5G networks are designed not only to transport data, but also to process them while supporting a vas...
Network slicing makes it possible for future applications with a variety of adaptability requirement...
Network slicing is an integral part of 5G whichsupports next-generation wireless appli...
The upcoming Beyond Fifth Generation networks aim to meet network services characterized by low late...
Serving heterogeneous traffic demand requires efficient resource utilization to deliver the promise...
Slice Differentiator (SD) machine learning techniques are provided herein to efficiently allocate re...
Mobile traffic generated by a variety of services is rapidly increasing in volume. Both network and ...
Fifth-generation (5G) communication technology is intended to offer higher data rates, outstanding u...
Proceeding of: IEEE Conference on Computer Communications, INFOCOM 2017, Atlanta, Georgia, USA, 1-4 ...