基于IEEE 802.15.4标准的GTS利用率优化

2018 International Conference on Selected Topics in Mobile and Wireless Networking (MoWNeT) Pub Date : 2018-06-01 DOI:10.1109/MOWNET.2018.8428852

Ahmad Naseem Alvi, Rahat Mehmood, Muhammad Talha Ahmed, Malik Abdullah, S. Bouk

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引用次数: 2

摘要

近十年来，低速率和低处理的无线应用有很高的要求。这些应用程序大多在其物理层和介质访问控制(MAC)层使用IEEE 802.15.4标准。该标准在868MHz、915MHz和2400MHz频段运行，并在信标启用模式下提供超帧结构。这种超帧结构包括争用访问期(CAP)和争用自由期(CFP)。在CFP过程中，节点被分配GTS (Guaranteed Time Slots)来传输数据。在这项工作中，为了更好地利用链路，对超框架结构的CFP槽进行了微调。设计了一种可容纳更多CFP请求节点的背包优化算法。与现有标准相比，该方案提高了链路利用率，并可容纳更多的节点。分析结果表明，与所有三个频段的标准相比，我们提出的工作将链路利用率提高了近50%，并允许多达两倍的节点。

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Optimized GTS Utilization for IEEE 802.15.4 Standard

Low rate and low processing wireless applications are under high demands since last decade. Most of these applications use IEEE 802.15.4 standard on their physical and Medium Access Control (MAC) layers. The standard operates in 868MHz, 915MHz, and 2400MHz frequency bands, and offers superframe structure in its beacon enabled modes. This superframe structure comprises of Contention Access Period (CAP) and Contention Free Periods (CFP). During CFP, nodes are allocated Guaranteed Time Slots (GTS) to transfer their data. In this work, CFP slots of superframe structure have been fine-tuned for better link utilization. A knapsack optimization algorithm is designed to accommodate more CFP requesting nodes. The proposed scheme improves the link utilization and accommodates more nodes as compared to the existing standard. The analytical results show that our proposed work improves the link utilization almost 50% and allows up to double of nodes as compared to the standard on all three frequency bands.

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来源期刊

2018 International Conference on Selected Topics in Mobile and Wireless Networking (MoWNeT)

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