Analysis of an enhanced signaling network for scalable mobility management in next generation wireless networks

Global Telecommunications Conference, 2002. GLOBECOM '02. IEEE Pub Date : 2002-11-17 DOI:10.1109/GLOCOM.2002.1188208

Jeremy Abramson, Xiao-yan Fang, D. Ghosal

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Abstract

In order to support new personal communication services (PCS) in 2.5G and 3G networks, the underlying signaling network must support scalable and fault-tolerant mobility management. A mobility management architecture based on multiple home location registers (HLRs) and multiple gateway GPRS support nodes (GGSN) can meet both of these requirements. We consider an enhanced network architecture in which the mobility management databases, in particular, the HLRs, are interconnected by a TCP/IP network. The primary function of this additional network interface will be to support synchronization of the replicated and/or distributed HLRs. We outline the architecture of the converged signaling network and discuss the integration with the GPRS network. We then present analytical models to quantify the benefit of distributed HLR and replicated GGSN architectures. Our results show that a distributed HLR architecture can reduce the update and query delay. Finally, by appropriately load balancing the multiple GGSNs, the mean packet delay can be significantly reduced.

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下一代无线网络中可扩展移动管理的增强型信令网络分析

为了在2.5G和3G网络中支持新的个人通信业务(PCS)，底层信令网络必须支持可扩展和容错的移动性管理。基于多个归属位置寄存器(HLRs)和多个网关GPRS支持节点(GGSN)的移动性管理架构可以满足这两种需求。我们考虑了一种增强的网络体系结构，其中移动管理数据库，特别是HLRs，通过TCP/IP网络相互连接。这个额外的网络接口的主要功能是支持复制和/或分布式hlr的同步。概述了融合信令网络的体系结构，并讨论了与GPRS网络的集成。然后，我们提出了分析模型来量化分布式HLR和复制GGSN架构的好处。我们的研究结果表明，分布式HLR架构可以减少更新和查询延迟。最后，通过对多个ggsn进行适当的负载均衡，可以显著降低平均数据包延迟。

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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Global Telecommunications Conference, 2002. GLOBECOM '02. IEEE

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