TY - GEN
T1 - Service continuity support in self-organizing IMS networks
AU - Makaya, Christian
AU - Dutta, Ashutosh
AU - Das, Subir
AU - Chee, Dana
AU - Lin, Fuchun
AU - Komorita, Satoshi
AU - Yokota, Hidetoshi
AU - Schulzrinne, Henning
PY - 2011
Y1 - 2011
N2 - With the increasing interest in deploying 4G/LTE networks, IMS has a potential to be deployed in a wide scale in order to support mobile Internet and value-added services over next-generation networks. Moreover, the effort to create an operator-controlled signaling infrastructure using IP-based protocols has resulted in a large number of functional components and interactions between core networks elements. Thus, the carriers are trying to explore alternative ways to deploy IMS that will allow them to manage their network in a cost effective manner while offering rich communications services. One of such approaches is self-organization of IMS (SOIMS). The self-organizing IMS can enable the IMS functional components to adapt dynamically based on the features like network load, number of users, node failures and available system resources. This paper proposes different mechanisms to handle self-organizing IMS with usage of load balancing paradigm. The proposed solution enables topology hiding, IMS nodes failure recovery, session continuity support, and IMS scalability.
AB - With the increasing interest in deploying 4G/LTE networks, IMS has a potential to be deployed in a wide scale in order to support mobile Internet and value-added services over next-generation networks. Moreover, the effort to create an operator-controlled signaling infrastructure using IP-based protocols has resulted in a large number of functional components and interactions between core networks elements. Thus, the carriers are trying to explore alternative ways to deploy IMS that will allow them to manage their network in a cost effective manner while offering rich communications services. One of such approaches is self-organization of IMS (SOIMS). The self-organizing IMS can enable the IMS functional components to adapt dynamically based on the features like network load, number of users, node failures and available system resources. This paper proposes different mechanisms to handle self-organizing IMS with usage of load balancing paradigm. The proposed solution enables topology hiding, IMS nodes failure recovery, session continuity support, and IMS scalability.
KW - Self-organizing IMS
KW - load balancing
KW - scalability
KW - session continuity
UR - http://www.scopus.com/inward/record.url?scp=79960923677&partnerID=8YFLogxK
U2 - 10.1109/WIRELESSVITAE.2011.5940890
DO - 10.1109/WIRELESSVITAE.2011.5940890
M3 - Conference contribution
AN - SCOPUS:79960923677
SN - 9781457707872
T3 - 2011 2nd International Conference on Wireless Communication, Vehicular Technology, Information Theory and Aerospace and Electronic Systems Technology, Wireless VITAE 2011
BT - 2011 2nd International Conference on Wireless Communication, Vehicular Technology, Information Theory and Aerospace and Electronic Systems Technology, Wireless VITAE 2011
T2 - 2011 2nd International Conference on Wireless Communication, Vehicular Technology, Information Theory and Aerospace and Electronic Systems Technology, Wireless VITAE 2011
Y2 - 28 February 2011 through 3 March 2011
ER -