Service continuity support in self-organizing IMS networks

C. Makaya, A. Dutta, S. Das, D. Chee, F. Lin, S. Komorita, H. Yokota, H. Schulzrinne
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引用次数: 10

Abstract

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.
自组织IMS网络中的服务连续性支持
随着人们对部署4G/LTE网络的兴趣日益浓厚,IMS有可能被大规模部署,以便在下一代网络上支持移动互联网和增值服务。此外,使用基于ip的协议创建运营商控制的信令基础设施的努力导致了核心网络元素之间的大量功能组件和交互。因此,运营商正在尝试探索部署IMS的替代方法,这将使他们能够在提供丰富通信服务的同时以一种经济有效的方式管理网络。其中一种方法是IMS的自组织(SOIMS)。自组织IMS可以使IMS功能组件根据网络负载、用户数量、节点故障和可用系统资源等特性进行动态调整。本文提出了利用负载平衡范式处理自组织IMS的不同机制。提出的解决方案支持拓扑隐藏、IMS节点故障恢复、会话连续性支持和IMS可伸缩性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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