Abstract Wireless networks are becoming extremely pervasive while traffic demand is ever increasing. In order to cope with the forecast increase in traffic volume for the upcoming years, as well as the number of connected devices, new technologies, practices and spectrum rearrangements are required. In this context, a key question arises: how to provide extensive backhaul connectivity and capacity for pervasive ultra dense networks? The answer is rather complex, if feasible. To shed some light into this issue we overview potential technologies, either wired or wireless, and identify technical challenges. Moreover, we evaluate an illustrative scenario of a ultra-dense network that operates with hybrid wired-wireless backhaul. We assume mult...
Wireless technology is the strongest contender for catering for the 5G backhaul stipulated performan...
The objective of this dissertation is to construct and optimize communication links between densely ...
In this paper we address the need for wireless network densification. We propose a solution wherein ...
Abstract—Mobile operators are facing an exponential traffic growth due to the proliferation of porta...
Proceedings of: 2010 IEEE Global Telecommunications Conference (GLOBECOM 2010), 6-10 December 2010, ...
Mobile data traffic is expected to increase substantially in the coming years, with data rates 1000 ...
The mobile internet data traffic is growing rapidly in non-uniform peak traffic patterns. Emerging r...
This thesis investigates innovative wireless deployment strategies for dense ultra-small cells netwo...
5G is the next cellular generation and is expected to quench the growing thirst for taxing data rate...
Ultra-Dense Network (UDN) is considered to be the key enabler for realizing capacity goals set by 5G...
One of the main challenges for wide-scale deployment and timely adoption of ultra-dense networks (UD...
UAV enabled communications promise to provide solutions for many challenges raised by the emerging a...
The final publication is available at ACM via http://dx.doi.org/10.1145/3265863.3265881Aggressive de...
5G is the next cellular generation and is expected to quench the growing thirst for taxing data rate...
In this paper, we consider the optimization of wireless capacity-limited backhaul links in future he...
Wireless technology is the strongest contender for catering for the 5G backhaul stipulated performan...
The objective of this dissertation is to construct and optimize communication links between densely ...
In this paper we address the need for wireless network densification. We propose a solution wherein ...
Abstract—Mobile operators are facing an exponential traffic growth due to the proliferation of porta...
Proceedings of: 2010 IEEE Global Telecommunications Conference (GLOBECOM 2010), 6-10 December 2010, ...
Mobile data traffic is expected to increase substantially in the coming years, with data rates 1000 ...
The mobile internet data traffic is growing rapidly in non-uniform peak traffic patterns. Emerging r...
This thesis investigates innovative wireless deployment strategies for dense ultra-small cells netwo...
5G is the next cellular generation and is expected to quench the growing thirst for taxing data rate...
Ultra-Dense Network (UDN) is considered to be the key enabler for realizing capacity goals set by 5G...
One of the main challenges for wide-scale deployment and timely adoption of ultra-dense networks (UD...
UAV enabled communications promise to provide solutions for many challenges raised by the emerging a...
The final publication is available at ACM via http://dx.doi.org/10.1145/3265863.3265881Aggressive de...
5G is the next cellular generation and is expected to quench the growing thirst for taxing data rate...
In this paper, we consider the optimization of wireless capacity-limited backhaul links in future he...
Wireless technology is the strongest contender for catering for the 5G backhaul stipulated performan...
The objective of this dissertation is to construct and optimize communication links between densely ...
In this paper we address the need for wireless network densification. We propose a solution wherein ...