Future cellular networks will be dense and require key traffic management technologies for fine-grained network control. The problem gets more complicated in the presence of different network segments with bottleneck links limiting the desired quality of service (QoS) delivery to the last mile user. In this work, we first design a framework for software-defined cellular networks and then propose new mechanisms for management of QoS and non-QoS users traffic considering both access and backhaul networks, jointly. The overall SDN-LTE system and related approaches are developed and tested using network simulator in different network environments. Especially, when the users are non-uniformly distributed, the results shows that compared to other...
Abstract There is an ever-increasing demand for network technologies supporting Ultra-Reliable Low ...
Due to the huge increase in traffic and services in mobile networks, network management has changed ...
The future wireless networks are expected to be extremely dense and heterogeneous, with the users ex...
Future cellular networks utilizes complex network technologies that makes it hard to achieve fine-gr...
The growing data traffic demand is forcing network operators to deploy more base stations, culminati...
Exponential growth of mobile subscribers and various application data traffic requirements cause exo...
Software-defined networking (SDN) has gained a tremendous attention in the recent years, both in aca...
Software defined cellular networks (SDCN) are a new paradigm to modify future network architectures ...
Evolution of LTE networks is one of the major milestones in vehicular ad hoc networks as LTE provide...
Rapidly increasing traffic demands set up much higher requirements for data rates in the upcoming 5G...
Small cell (SCell) and Software Define Network (SDN) are two key enablers to meet the evolutional re...
Ultra-Dense Network (UDN) deployment is considered a key element to achieve the requested capacity i...
The increase of mobile devices and services over the last decade has led to unprecedented mobile tra...
Abstract—We present a novel mobility management scheme for the Long Term Evolution (LTE) networks, w...
The next generation of 5G networks is being developed to provide services with the highest Quality o...
Abstract There is an ever-increasing demand for network technologies supporting Ultra-Reliable Low ...
Due to the huge increase in traffic and services in mobile networks, network management has changed ...
The future wireless networks are expected to be extremely dense and heterogeneous, with the users ex...
Future cellular networks utilizes complex network technologies that makes it hard to achieve fine-gr...
The growing data traffic demand is forcing network operators to deploy more base stations, culminati...
Exponential growth of mobile subscribers and various application data traffic requirements cause exo...
Software-defined networking (SDN) has gained a tremendous attention in the recent years, both in aca...
Software defined cellular networks (SDCN) are a new paradigm to modify future network architectures ...
Evolution of LTE networks is one of the major milestones in vehicular ad hoc networks as LTE provide...
Rapidly increasing traffic demands set up much higher requirements for data rates in the upcoming 5G...
Small cell (SCell) and Software Define Network (SDN) are two key enablers to meet the evolutional re...
Ultra-Dense Network (UDN) deployment is considered a key element to achieve the requested capacity i...
The increase of mobile devices and services over the last decade has led to unprecedented mobile tra...
Abstract—We present a novel mobility management scheme for the Long Term Evolution (LTE) networks, w...
The next generation of 5G networks is being developed to provide services with the highest Quality o...
Abstract There is an ever-increasing demand for network technologies supporting Ultra-Reliable Low ...
Due to the huge increase in traffic and services in mobile networks, network management has changed ...
The future wireless networks are expected to be extremely dense and heterogeneous, with the users ex...