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引用次数: 4
摘要
IEEE 802.11 wlan由于其低成本、易于部署和移动性支持,已经达到了一个重要的阶段,并已成为一种通用的无线接入技术。但是,对于延迟敏感型多媒体应用,IEEE 802.11标准不能支持期望的QoS (Quality of Service)。因此,IEEE 802.11e标准于2005年被指定,该标准旨在通过为不同类型的帧提供不同的优先级来支持QoS。但是,在吞吐量优化、时延限制、丢包率等性能问题上仍存在一些未解决的问题。本文首先提出了一种局部估计节点数量和信道密度的方法,使移动节点根据信道条件改变其参数。然后,针对延迟敏感型VoIP应用,提出了一种QoS适配方案。该算法仅利用其本地信息,无需对现行IEEE 802.11e标准进行任何更改即可轻松实现。仿真结果表明,与标准IEEE 802.11e相比,该协议具有更好的语音质量和更高的总体吞吐量。
A local estimation of node quantity and channel density for VoIP applications over IEEE 802.11e WLANs
IEEE 802.11 WLANs have reached an important stage and have become a common technology for wireless access due to its low cost, ease of deployment and mobility support. However, IEEE 802.11 standard cannot support desired Quality of Service (QoS) for delay-sensitive multimedia applications. Therefore, IEEE 802.11e standard which aims to support QoS by providing different priorities to different types of frames was specified in 2005. However, there are still unsolved performance issues such as optimization of throughput, limiting the delay and packet loss ratio. In this paper, we first present a local estimation method of node quantity and channel density to let the mobile nodes change their parameters according to the channel conditions. Then, we propose a QoS adaptation for delay-sensitive VoIP applications. Proposed algorithm only uses its local information and can be easily implemented without any changes on the current IEEE 802.11e standard. Simulation results show better voice quality and higher overall throughput than the standard IEEE 802.11e.
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