Because of recent advances in both client devices and wireless communications, industry has started to look at the potentially relevant market of Location Based Services (LBSs). IP Multimedia Subsystem (IMS) and IMS-based presence service are putting together and standardizing the needed support for lo-cation data dissemination in industry-level LBS appli-cations. However, the deployment of presence-based LBSs is still very challenging since frequent location updates have to be timely delivered to the (potentially many) subscribed LBS applications. The paper pro-poses a novel presence service solution with two origi-nal extensions to address the above challenging scal-ability issues: a load-balancing model working at both IMS infrastructure and service levels; a novel compo-nent to automatically de-/activate new IMS infrastruc-ture/presence service nodes by need, also by dynami-cally redistributing the incoming load. The prototype of this enhanced IMS presence service, fully-compliant with existing IMS standards, has been deployed and validated in our university campus wireless infrastruc-ture: the reported performance results show improved scalability and limited load-balancing costs.
P. Bellavista, A. Corradi, L. Foschini (2009). Enhancing the Scalability of IMS-Based Presence Service for LBS Applications. LOS ALAMITOS, CALIFORNIA : IEEE Computer Society Press.
Enhancing the Scalability of IMS-Based Presence Service for LBS Applications
BELLAVISTA, PAOLO;CORRADI, ANTONIO;FOSCHINI, LUCA
2009
Abstract
Because of recent advances in both client devices and wireless communications, industry has started to look at the potentially relevant market of Location Based Services (LBSs). IP Multimedia Subsystem (IMS) and IMS-based presence service are putting together and standardizing the needed support for lo-cation data dissemination in industry-level LBS appli-cations. However, the deployment of presence-based LBSs is still very challenging since frequent location updates have to be timely delivered to the (potentially many) subscribed LBS applications. The paper pro-poses a novel presence service solution with two origi-nal extensions to address the above challenging scal-ability issues: a load-balancing model working at both IMS infrastructure and service levels; a novel compo-nent to automatically de-/activate new IMS infrastruc-ture/presence service nodes by need, also by dynami-cally redistributing the incoming load. The prototype of this enhanced IMS presence service, fully-compliant with existing IMS standards, has been deployed and validated in our university campus wireless infrastruc-ture: the reported performance results show improved scalability and limited load-balancing costs.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.