Analysis of IEEE 802.11n network Access Categories in EDCA non-saturated networks

2015 International Conference on Computing, Communication and Security (ICCCS) Pub Date : 2015-12-01 DOI:10.1109/CCCS.2015.7374188

P. Sotenga, P. Chuku, T. Olwal

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引用次数: 3

Abstract

In recent years demand for high data rate amongst internet users has increased due to the use of real time data services such as video and voice conferencing. The IEEE 802.11n standard is an advancement from the previous a,b and g versions. Its design goal is to increase data rate, and maintain compatibility with the previous versions. The IEEE 802.11n standard introduces improvements at both the PHY and MAC layers. This standard still adopts the EDCA and HCCA mechanism used for enhancing QoS in the network by assigning priorities to different classes of data called Access Categories (ACs). In this paper we compute a theoretical throughput model for 4 different stations transmitting separate ACs in non saturated conditions. Networks with non saturated conditions find real applications in WSN and WiFi enterprises. We then perform a practical experimentation with 4 different nodes and compare the throughput results with the theoretical one. Based on the comparison, we determine the fairness linked with the QoS mechanism. The comparative throughput performance indicates that the analytical results compare well with the practical experimental results considering non saturated ACs.

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EDCA非饱和网络中IEEE 802.11n网络接入类别分析

近年来，由于视频和语音会议等实时数据服务的使用，互联网用户对高数据速率的需求有所增加。IEEE 802.11n标准是对以前的a、b和g版本的改进。它的设计目标是提高数据速率，并保持与以前版本的兼容性。IEEE 802.11n标准在物理层和MAC层都进行了改进。该标准仍然采用EDCA和HCCA机制，用于通过为称为访问类别(Access Categories, ac)的不同类型的数据分配优先级来增强网络中的QoS。本文计算了在非饱和条件下，4个不同站点分别传输交流信号的理论吞吐量模型。非饱和条件下的网络在WSN和WiFi企业中得到了实际应用。然后，我们在4个不同节点上进行了实际实验，并将吞吐量结果与理论结果进行了比较。在此基础上，我们确定了与QoS机制相关联的公平性。对比通量性能表明，在考虑非饱和ac的情况下，分析结果与实际实验结果比较吻合。

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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2015 International Conference on Computing, Communication and Security (ICCCS)

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