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引用次数: 7
摘要
多技术无线网络的移动性管理是泛在接入的一项重要功能。在这种异构环境中,服务提供商必须保证服务的连续性,尤其是 IP 语音等实时应用。为了实现这一目标,互联网工程任务组(IETF)提出了 IPv6 快速切换(FMIPv6)方案,以减少实时应用的切换延迟。FMIPv6 有两种运行模式:预测模式和反应模式。使用预测模式时,FMIPv6 可以实现无缝切换。如果预测模式失效,则会降低切换性能并破坏感知质量。本文提出了一种增强型 FMIPv6,通过将快速绑定更新的确认转发到移动节点的新位置,最大限度地提高了预测模式的概率。此外,该解决方案基于在移动节点和网络中使用媒体独立切换服务,以实现成功的预测切换。为移动节点定义了一个新的状态机,以满足新改进的要求。通过分析研究调查了拟议改进的影响。
Maximizing predictive mode probability in fast handovers for mobile IP
Mobility management across multi technology wireless networks is an important feature for ubiquitous access. In such heterogeneous environment, service providers have to deal with service continuity especially for real time applications like voice over IP. In order to achieve this goal, the Internet Engineering Task Force (IETF) proposed fast handovers for IPv6 (FMIPv6) to reduce handover delay for real-time applications. FMIPv6 operates in two modes: predictive mode and reactive mode. FMIPv6 handover is achieved seamlessly when the predictive mode is used. The failure of the predictive mode degrades the handover performance and disrupts the perceived quality. In this paper, we propose an enhanced FMIPv6 that maximizes the predictive mode probability by forwarding the acknowledgment of the fast binding update to the new location of the mobile node. Moreover, the solution is based on the use of media independent handover services in both mobile node and network in order to achieve a successful predictive handover. A new state machine is defined for the mobile node to answer the requirements of the new enhancement. The impact of the proposed improvement is investigated through an analytical study.
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