On the performance comparison of the agent-based rate adaptivity scheme for IEEE 802.11n and ZigBee

2016 International Conference on Telecommunications and Multimedia (TEMU) Pub Date : 2016-07-25 DOI:10.1109/TEMU.2016.7551926

Vasos Hadjioannou, C. Mavromoustakis, G. Mastorakis, E. Pallis, D. Stratakis, Dimitra Valavani

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引用次数: 1

Abstract

This work examines the IEEE 802.11, used in WLANs (Wireless Local Area Network), and IEEE 802.15.4, for WPANs (Wireless Personal Area Network), along with the Agent-based Rate Adaptive Scheme. The paper presents the Agent-based Rate Adaptive Scheme, which allows each channel to adaptively set the rate for serving a specific transfer. To this, end Agents are being utilized on each node in order to enable efficient monitoring of the requirements of each transfer and adjust the rate accordingly. Results were extracted by conducting simulation experimentation, and comparing the behavior and performance of a WLAN and a ZigBee network, in a short distance environment such as an office or a house, in order to determine the optimal protocol to be used in applications such as home/building automation. The experiment showed that while the 802.11 protocol performs better when it comes to delay, ZigBee has the upper hand in reliability, as more packets were successfully delivered in the WPAN, rather than the WLAN. Furthermore, this paper takes into consideration parameters such as queuing delay and transmission rate adaptivity, investigates them in a more calculative manner, and presents the findings of our evaluations.

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基于代理的IEEE 802.11n和ZigBee速率自适应方案的性能比较

这项工作研究了用于wlan(无线局域网)的IEEE 802.11和用于wpan(无线个人局域网)的IEEE 802.15.4，以及基于代理的速率自适应方案。本文提出了基于代理的速率自适应方案，该方案允许每个信道自适应地设置服务于特定传输的速率。为此，在每个节点上使用终端代理，以便能够有效地监视每个传输的需求并相应地调整速率。通过进行仿真实验，并比较WLAN和ZigBee网络在办公室或家庭等短距离环境中的行为和性能，得出结果，以确定在家庭/楼宇自动化等应用中使用的最佳协议。实验表明，虽然802.11协议在延迟方面表现更好，但ZigBee在可靠性方面占上风，因为更多的数据包在WPAN中成功传递，而不是在WLAN中。此外，本文还考虑了排队延迟和传输速率自适应等参数，对其进行了更精确的研究，并给出了我们的评估结果。

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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2016 International Conference on Telecommunications and Multimedia (TEMU)

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