Mohammad Al Shinwan1
and Kim Chul-Soo2
1
Faculty of Computer Science and Informatics, department of Mobile Computing,
Amman Arab University, Amman, Jordan.
2Department of Computer Engineering, Inje University, Gimhae, Republic of Korea.
ABSTRACT
The current Evolved Packet Core (EPC) 4th generation (4G) mobile network architecture features
complicated control plane protocols and requires expensive equipment. Data delivery in the mobile packet
core is performed based on a centralized mobility anchor between eNode B (eNB) elements and the
network gateways. The mobility anchor is performed based on General Packet Radio Service tunnelling
protocol (GTP), which has numerous drawbacks, including high tunnelling overhead and suboptimal
routing between mobile devices on the same network. To address these challenges, here we describe new
mobile core architecture for future mobile networks. The proposed scheme is based on IP encapsulated
within IP (IP-in-IP) for mobility management and data delivery. In this scheme, the core network functions
via layer 3 switching (L3S), and data delivery is implemented based on IP-in-IP routing, thus eliminating
the GTP tunnelling protocol. For handover between eNB elements located near to one another, we propose
the creation of a tunnel that maintains data delivery to mobile devices until the new eNB element updates
the route with the gateway, which prevents data packet loss during handover. For this, we propose Generic
Routing Encapsulation (GRE) tunnelling protocol. We describe the results of numerical analyses and
simulation results showing that the proposed network core architecture provides superior performance
compared with the current 4G architecture in terms of handover delay, tunnelling overhead and total
transmission delay.
KEYWORDS
5G network, mobile core network, IP-in-IP, GRE
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