Fifth Generation (5G) cellular networks aim to overcome the pressing demands posed by dynamic Quality of Service (QoS) constraints, which have primarily remained unaddressed using conventional network infrastructure. Cellular networks of the future necessitate the formulation of efficient resource allocation schemes that readily meet throughput requirements. The idea of combining Device-to-Device (D2D), Mobile Edge Computing (MEC), and Network slicing (NS) can improve spectrum utilization with better performance and scalability. This work presents a spectrum efficiency optimization problem in D2D based 5G-Heterogeneous Cellular Network (5G-HCN) with NS. Owing to the shortage of resources, we propose an underlay model where macro-cell users ...
In this paper, we investigate the resource optimization problem for device-to-device (D2D) communica...
International audienceEvery second, a large amount of digital data is transported through infinite t...
In this paper, we consider a system model in conjunction with two major technologies in 5G communica...
Fifth Generation (5G) cellular networks aim to overcome the pressing demands posed by dynamic Qualit...
With the rapid new advancements in technology, there is an enormous increase in devices and their ve...
Mobile traffic generated by a variety of services is rapidly increasing in volume. Both network and ...
5G networks are expected to be able to satisfy users' different QoS requirements. Network slicing is...
The large number of internet-connected devices will continue to drive growth in data traffic in an e...
Abstract Device-to-device (D2D) communications and mobile edge computing (MEC) used to resolve traff...
In order to solve the problem of interference and spectrum optimization caused by D2D (device-to-dev...
Mobile edge computing (MEC) is currently one of the key technologies that can facilitate the evoluti...
Network slicing has been widely recognized as the architectural technology for 5G and beyond wireles...
Frequency channel allocation is a key technique for improving the performance of cellular networks. ...
The increasing heterogeneity of the mobile network infrastructure together with the explosively grow...
In this paper, we investigate the resource optimization problem for device-to-device (D2D) communica...
International audienceEvery second, a large amount of digital data is transported through infinite t...
In this paper, we consider a system model in conjunction with two major technologies in 5G communica...
Fifth Generation (5G) cellular networks aim to overcome the pressing demands posed by dynamic Qualit...
With the rapid new advancements in technology, there is an enormous increase in devices and their ve...
Mobile traffic generated by a variety of services is rapidly increasing in volume. Both network and ...
5G networks are expected to be able to satisfy users' different QoS requirements. Network slicing is...
The large number of internet-connected devices will continue to drive growth in data traffic in an e...
Abstract Device-to-device (D2D) communications and mobile edge computing (MEC) used to resolve traff...
In order to solve the problem of interference and spectrum optimization caused by D2D (device-to-dev...
Mobile edge computing (MEC) is currently one of the key technologies that can facilitate the evoluti...
Network slicing has been widely recognized as the architectural technology for 5G and beyond wireles...
Frequency channel allocation is a key technique for improving the performance of cellular networks. ...
The increasing heterogeneity of the mobile network infrastructure together with the explosively grow...
In this paper, we investigate the resource optimization problem for device-to-device (D2D) communica...
International audienceEvery second, a large amount of digital data is transported through infinite t...
In this paper, we consider a system model in conjunction with two major technologies in 5G communica...