Add to ORKG[EN] As mobile operators face increasing density of base stations as well as growing bandwidth requirements, mobile backhaul has become the new challenge. This article defines the architecture for future mobile backhaul networks as proposed in the framework of the FP7 EU SARABAND project. This solution exploits a new and wider frequency spectrum band, the Q-band (40.5 43.5 GHz), to provide massive amounts of capacity. However, for the full deployment of such backhaul networks, new technology development in the Q-band must be addressed. In particular, this article gives an overview of the disruptive technology on antennas and front-end modules developed within this project.Vilar Mateo, R.; Martí Sendra, J.; Czarny, R.; Sypek, M.; Makowski,...
Fibre is commonly perceived to be the dominant transport mechanism for transferring data from access...
The mobile data rates and number of devices are constantly increasing, creating new challenges for t...
I Abstract- The mobile backhaul networks have to catch up with all these changes and counterbalance ...
[EN] As mobile operators face increasing density of base stations as well as growing bandwidth requi...
As mobile operators face increasing base station density as well as growing bandwidth requirements, ...
The demand of capacity in mobile communication is growing exponentially day-by-day, as the numbers ...
[EN] The bandwidth demands in mobile communication systems are growing exponentially day by day as t...
[EN] The bandwidth demands in mobile communication systems are growing exponentially day by day as t...
© 2014 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
This paper describes the small scale field trial deployed within the SARABAND project to provide fi...
The bandwidth demands in mobile communication systems are growing exponentially day by day as the nu...
Demand for mobile broadband services is continually increasing, requiring operators to provide more...
The economic impact of millimeter wave wireless networks is a key parameter for the future deploymen...
Driven by the exponential growth in mobile broadband subscriptions and mobile data traffic, transpor...
The mobile data rates and number of devices are constantly increasing, creating new challenges for t...
Fibre is commonly perceived to be the dominant transport mechanism for transferring data from access...
The mobile data rates and number of devices are constantly increasing, creating new challenges for t...
I Abstract- The mobile backhaul networks have to catch up with all these changes and counterbalance ...
[EN] As mobile operators face increasing density of base stations as well as growing bandwidth requi...
As mobile operators face increasing base station density as well as growing bandwidth requirements, ...
The demand of capacity in mobile communication is growing exponentially day-by-day, as the numbers ...
[EN] The bandwidth demands in mobile communication systems are growing exponentially day by day as t...
[EN] The bandwidth demands in mobile communication systems are growing exponentially day by day as t...
© 2014 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
This paper describes the small scale field trial deployed within the SARABAND project to provide fi...
The bandwidth demands in mobile communication systems are growing exponentially day by day as the nu...
Demand for mobile broadband services is continually increasing, requiring operators to provide more...
The economic impact of millimeter wave wireless networks is a key parameter for the future deploymen...
Driven by the exponential growth in mobile broadband subscriptions and mobile data traffic, transpor...
The mobile data rates and number of devices are constantly increasing, creating new challenges for t...
Fibre is commonly perceived to be the dominant transport mechanism for transferring data from access...
The mobile data rates and number of devices are constantly increasing, creating new challenges for t...
I Abstract- The mobile backhaul networks have to catch up with all these changes and counterbalance ...