Title :
Ethernet-based mobility architecture for 5G
Author :
Cattoni, Andrea F. ; Mogensen, Preben E. ; Vesterinen, S. ; Laitila, M. ; Schumacher, L. ; Ameigeiras, P. ; Ramos-Munoz, J.J.
Author_Institution :
Dept. of Electron. Syst., Aalborg Univ., Aalborg, Denmark
Abstract :
A massive traffic increase is foreseen in the near future in mobile networks. Such data storm is expected to pose new challenging requirements to the existing mobile network architecture, since the traffic will be generated by a wide set of applications running on an increasingly high number of mobile devices and sensors. In this paper we propose a paradigm shift for the Evolved Packet Core for the future 5G system. By leveraging on the economy of scale of software-based ICT technologies, namely Software Defined Networking and cloud computing, we propose a hierarchically cloudified mobile network. In particular, in this paper we focus on the mobility aspects within such new architecture, proposing low latency Layer 2 solutions for the Access Network, while exploiting aggregating Layer 3 mobility functionalities in the regional and national clouds.
Keywords :
cloud computing; local area networks; mobile communication; 5G communication; Ethernet-based mobility architecture; cloud computing; cloudified mobile network; evolved packet core; fifth-generation communication; information and communication technology; mobile network architecture; mobility aspect; software defined networking; software-based ICT technology; Cloud computing; Computer architecture; Control systems; Mobile computing; Mobile radio mobility management; Scalability;
Conference_Titel :
Cloud Networking (CloudNet), 2014 IEEE 3rd International Conference on
Conference_Location :
Luxembourg
DOI :
10.1109/CloudNet.2014.6969036
