Simulating macrocell-microcell handovers in 4G systems

2017 International Conference on Communication, Control, Computing and Electronics Engineering (ICCCCEE) Pub Date : 1900-01-01 DOI:10.1109/ICCCCEE.2017.7867650

Sahar Bashir Abass, Samah Fageer Ahmed, Shimaa Hyder Makki, N. Osman

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引用次数: 2

Abstract

Fourth Generation (4G) systems are expected to operate the global mobile network coverage area. They provide various services for different user types and their requirements. Vertical handovers occur between two layers of cells when a user is switched from one layer to the other. This paper details the influence of network parameters on vertical handover performance in a cell by simulating an overlapped macrocell-microcell environment. It considers handover requests entering a macrocell from a neighbor macrocell and from microcells of a different layer. We calculate various network performance parameters such as mean queue delay, handover dropping probability and channel utilization and compare the handover performance for macrocell and macrocell traffic. Our results demonstrate the influence of total channels, maximum queue size and handover request arrival rate on handover performance. They also show that the performance of each layer is similar in the case were the traffic from each layer is treated with equal priority in the system.

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模拟4G系统中的宏蜂窝-微蜂窝切换

预计第四代(4G)系统将运营全球移动网络覆盖区域。它们针对不同的用户类型和需求提供各种服务。当用户从一层切换到另一层时，垂直切换发生在两层单元之间。本文通过模拟宏蜂窝-微蜂窝重叠环境，详细分析了网络参数对蜂窝内垂直切换性能的影响。它考虑从相邻宏细胞和不同层的微细胞进入宏细胞的切换请求。我们计算了各种网络性能参数，如平均队列延迟、切换丢失概率和信道利用率，并比较了宏蜂窝和宏蜂窝业务的切换性能。我们的结果证明了总通道、最大队列大小和切换请求到达率对切换性能的影响。它们还表明，在系统中以同等优先级处理来自每层的流量的情况下，每层的性能是相似的。

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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2017 International Conference on Communication, Control, Computing and Electronics Engineering (ICCCCEE)

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