Heterogeneous networks have been firmly established as the direction in which next-generation cellular networks are evolving. We consider the dense deployment of small cells to provide enhanced capacity, while the macro cells provide wide area coverage. With the development of dual connectivity technology, deploying small cells on dedicated carriers has become an attractive option, with enhanced flexibility for splitting traffic within the network. The power consumption and latency requirements of the backhaul link are also gaining increasing prominence due to these factors. Backhaul link quality itself is expected to play an important role in influencing the deployment costs of next-generation 5G systems. Energy efficiency as a network...
Heterogeneous small-cell networks (HetNets) are considered to be a standard part of future mobile ne...
Future dense mobile networks will imply much higher costs both in access and backhaul. This paper an...
To meet the ever-increasing traffic demands, future cellular networks are about to include a plethor...
In recent years, due to the increasing number of existing and new devices and applications, the wire...
Energy efficiency in future networks is a global and paramount requirement driven by the desire to ...
Small cell networks (SCNs) are envisaged as a key technology enabling the fifth-generation (5G) wire...
Over the past decade, the telecommunication industry has witnessed excessive growth in the number of...
The rapid growth in global mobile phone users has resulted in an ever-increasing demand for bandwidt...
The galloping pace of development in the field of wireless communication has left the world astounde...
The widespread applications of wireless services and dense devices access have triggered huge energy...
A dense deployment of small cells is one of the key characteristics envisioned for future 5G mobile ...
There is an exponential growth in the energy consumption of cellular networks due to the surge in da...
The growth in mobile communications has resulted in a significant increase in energy consumption and...
The growth in mobile communications has resulted in a significant increase in energy consumption and...
Heterogeneous small-cell networks (HetNets) are considered to be a standard part of future mobile ne...
Heterogeneous small-cell networks (HetNets) are considered to be a standard part of future mobile ne...
Future dense mobile networks will imply much higher costs both in access and backhaul. This paper an...
To meet the ever-increasing traffic demands, future cellular networks are about to include a plethor...
In recent years, due to the increasing number of existing and new devices and applications, the wire...
Energy efficiency in future networks is a global and paramount requirement driven by the desire to ...
Small cell networks (SCNs) are envisaged as a key technology enabling the fifth-generation (5G) wire...
Over the past decade, the telecommunication industry has witnessed excessive growth in the number of...
The rapid growth in global mobile phone users has resulted in an ever-increasing demand for bandwidt...
The galloping pace of development in the field of wireless communication has left the world astounde...
The widespread applications of wireless services and dense devices access have triggered huge energy...
A dense deployment of small cells is one of the key characteristics envisioned for future 5G mobile ...
There is an exponential growth in the energy consumption of cellular networks due to the surge in da...
The growth in mobile communications has resulted in a significant increase in energy consumption and...
The growth in mobile communications has resulted in a significant increase in energy consumption and...
Heterogeneous small-cell networks (HetNets) are considered to be a standard part of future mobile ne...
Heterogeneous small-cell networks (HetNets) are considered to be a standard part of future mobile ne...
Future dense mobile networks will imply much higher costs both in access and backhaul. This paper an...
To meet the ever-increasing traffic demands, future cellular networks are about to include a plethor...