Mingon Kim, Yazan M. Allawi, Jung-Sook Jang, Jin-Kyu Kang, SangCheol Lee, Minho Kang
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引用次数: 0
摘要
在IEEE 802.16e系统中,在移动站(MS)上运行的服务连接中花费的切换延迟时间可能对实时应用程序产生负面影响;特别是,多播和广播服务(MBS)的连接可能由于多播会话更新(更新其关联的MBS区域的过程)而遭受额外的切换延迟,其中其MS移出了其关联的MBS区域。针对这一问题,本文提出了一种增强切换机制(Enhanced switching Mechanism, EHM),该机制通过首先选择一个在当前关联的MBS区域内具有满意的接收信号强度(Received Signal Strength, RSS)值的邻居基站作为目标基站,尽可能多地减少扫描邻居基站所需的时间和MBS会话更新次数。仿真结果表明,EHM能够在保持满意的ms RSS值的同时,减少组播和单播连接的切换延迟时间,从而增强对实时MBS的移动性支持,同时保持与IEEE 802.16e系统的兼容性。
Enhanced Handover Mechanism for Multicast and Broadcast Services in IEEE 802.16e systems
The handover delay time spent in the service connections running at a Mobile Station (MS) in IEEE 802.16e systems can have a negative impact on real-time applications; especially, a connection for Multicast and Broadcast Service (MBS) could suffer additional handover delays due to multicast session update (the process of updating its associated MBS zone), where its MS moves out of its associated MBS zone. Taking this issue into account, this paper proposes an Enhanced Handover Mechanism (EHM) that can create the reduction of both the required time to scan neighbor Base Stations (BSs) and the number of the MBS session update by firstly selecting a neighbor BS guaranteeing a satisfactory level of Received Signal Strength (RSS) value in the current associated MBS zone as the target BS as many as possible. Simulation results show that the EHM can create the reduction of the handover delay time of both multicast and unicast connections while maintaining a satisfactory RSS value of an MS. As a consequence, enhancement of mobility support for real-time MBS can be achieved while keeping compatibility to IEEE 802.16e systems.
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