RT Journal Article
T1 A flexible IPv6 mobility management architecture for SDN-based 5G mobile networks
A1 Sajjad, Muhammad Mohtasim
A1 Jayalath, Dhammika
A1 Bernardos Cano, Carlos Jesús
AB With the advent of increasingly diverse services, applications, and use cases, the 5G mobility environment is expected to be highly heterogeneous. The distributed mobility management (DMM) is emerging as a promising approach for 5G, which provides decentralized handover and traffic management at the edge of the network. However, in order to meet the disparate mobility needs, the DMM process requires flexible design considerations. This paper presents a novel mobile node (MN) centered, software-defined networking (SDN)–based flexible mobility management architecture, named adaptive multimode mobility management (A3M), which can adaptively operate in multiple modes. The proposed A3M architecture incorporates a novel handover mode selection phase among the traditional handover phases during which a suitable mode of handover operation is evaluated. This makes the A3M handover process adaptable to the varying mobility requirements of the MN and enables it to provide differentiated handover management for MNs with different mobility profiles. The performance analysis of A3M shows that it offers optimal handover performance in terms of primary handover performance metrics such as session disruption delay, packet losses, and signaling costs, compared to the popular network-based DMM approaches.
PB Wiley
SN 2161-3915
YR 2022
FD 2022-03-21
LK https://hdl.handle.net/10016/34549
UL https://hdl.handle.net/10016/34549
LA eng
NO Special Issue: Enabling Technologies for Future Mobile and Edge Networks and Enabling AI Technologies for Internet of Energy.
DS e-Archivo
RD 1 sept. 2024