Enhanced distribution channel access — Modification of the intial & thereafter CW (EDCA-MITCW)

Hann-Tzong Chern, H. Kuo, So-Tsung Chou
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引用次数: 4

Abstract

In recent years, IEEE 802.11 Wireless Local Area Networks (WLANs) have emerged as one of the prevailing technologies for the broadband wireless access. Although IEEE802.16 wireless network has become a newer generation of wireless network, it will be used as wireless metropolitan area network in the beginning because of its price. IEEE 802.11 network will continue to be the most important wireless local area network (WLAN) because of inexpensive price and easy installation. There are increasing number of applications found for WLAN which include real time traffic like Voice over IP and others. This causes more and more intensive research efforts on the quality of service (QoS) issues in “carrier sense multiple access/ collision avoidance (CSMA/CA)” for WLAN. Until now, the standard of IEEE 802.11e has stated some scenarios for this problem. In this paper, we focus on the adjustment of contention window of CSMA/CA after successful transmission of frame and the collision of multiple frames. In IEEE 802.11e, different contention window is given to different class of traffic. This will give higher priority to real traffic in a contention protocol. However, several researches have shown this method does not work very well in high load situation. For this, we propose a method to adjust the minimum contention window (CWmin) for different class of traffic according the number of stations and the collision rate of this class. Also, we propose a method to find the new contention window after collision. Simulation shows our protocol will have a good result under both light and heavy load situations.
加强分销渠道准入--修改最初和其后的 CW(EDCA-MITCW)
近年来,IEEE 802.11 无线局域网(WLAN)已成为宽带无线接入的主流技术之一。虽然 IEEE802.16 无线网络已成为新一代的无线网络,但由于其价格原因,一开始将被用作无线城域网。IEEE 802.11 网络将继续成为最重要的无线局域网(WLAN),因为它价格低廉,安装方便。无线局域网的应用越来越多,其中包括 IP 语音等实时通信。这就促使对无线局域网 "载波感应多路访问/碰撞避免(CSMA/CA)"中的服务质量(QoS)问题的研究越来越深入。到目前为止,IEEE 802.11e 标准已经提出了一些解决这一问题的方案。本文重点讨论 CSMA/CA 的竞争窗口在成功传输帧后的调整问题以及多个帧的碰撞问题。在 IEEE 802.11e 中,不同类别的流量有不同的竞争窗口。这将在争用协议中给予真实流量更高的优先级。然而,多项研究表明,这种方法在高负载情况下效果不佳。为此,我们提出了一种方法,根据站点数量和该类流量的碰撞率来调整不同类别流量的最小争用窗口(CWmin)。此外,我们还提出了一种在碰撞后寻找新争用窗口的方法。仿真结果表明,我们的协议在轻载和重载情况下都能取得良好的效果。
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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