Najib Abdo Nasser Odhah and Rolf Kraemer
IHP, Frankfurt (Oder), Germany
Title: 5G-Enabled Heterogeneous Vehicular Networks:- Radio and Network Resources Management
Biography
Biography: Najib Abdo Nasser Odhah and Rolf Kraemer
Abstract
The heterogeneous structure of the future fifth generation (5G) wireless communications systems with their heterogeneous service requirements revolutionize the research directions to meet the urgent standardization and commercialization of the 5G for 2020 and beyond. One of the significant research challenges in the 5G systems is the emergence of the tactile internet in which ultra-reliable and ultra-responsive real time haptic communications must be enabled by the 5G to deliver a real-time control and physical tactile experiences remotely. The Tactile Internet will provide a true paradigm shift from content-delivery to skill-set delivery networks, and thereby revolutionize almost every segment of the society.
There are many technologies for enabling the 5G to meet one or more of the service requirements, but there is not a single technology that can span all the urgent service requirements for the ubiquitous and haptic network connectivity. To tackle this challenge, a flexible and scalable design of the network architecture must be implemented. Network Slicing (NS), which is implemented by Software-Defined Networking (SDN)/ Network Functions Virtualization (NFV), enables flexible / abstracted architecture based on radio-aware SDN/NFV slicing in the networking domain and network-aware Radio Resource Management (RRM) in the wireless domain.