在基于IEEE 802.11的系统中实现快速切换的框架

2009 17th International Workshop on Quality of Service Pub Date : 2009-07-13 DOI:10.1109/IWQoS.2009.5201421

Sourav Pal, Sumantra R. Kundu, P. Ghosh, K. Basu, Sajal K. Das

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引用次数: 1

摘要

在标准的基于IEEE 802.11的系统中，当无线客户端迁移到当前关联的接入点(AP)的无线电范围之外时，网络应用程序会暂时断开连接，直到客户端能够重新与新的AP关联为止。在中断间隔期间发生的延迟可能从几百微秒到几秒不等。但是，对延迟敏感的应用程序，如IP语音(VoIP)或流媒体应用程序通常无法容忍超过50 - 200毫秒范围的长连接延迟。这会导致通话中断或视频帧冻结。在本文中，我们描述了一个基于软件的框架的设计、实现和评估，该框架促进了基于标准IEEE 802.11的无线局域网(wlan)中不同ap之间的无缝和透明切换。尽管文献中提供了不同的解决方案来解决切换延迟问题，但其中大多数都提出了超出当前802.11标准范围的更改。我们特别注意到这种兼容性限制，并设计了一个基于软件的客户端解决方案，能够将切换延迟减少到20毫秒的平均值。它可以作为客户端的驱动程序更新，不需要网络的额外支持。作为我们解决方案的一部分，我们已经使用开源的MadWifi驱动程序在Atheros AR5212芯片组上成功地实施和测试了我们提出的解决方案框架。

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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A framework for fast handoff in IEEE 802.11 based systems

In standard IEEE 802.11 based systems, when the wireless client migrates away from the radio range of the currently associated access point (AP), network applications temporarily loose connectivity till the client is able to re-associate itself with a new AP. The delay that occurs during the break-off interval can vary from a few hundreds of microseconds to a few seconds. However, delay sensitive applications such as Voice over IP (VoIP) or streaming multimedia applications usually are unable to tolerate such long connectivity delays that fall beyond the range of 50 – 200 ms. This results in dropped calls or frozen video frames. In this paper we describe the design, implementation, and evaluation of a software based framework that facilitates seamless and transparent handoff between different APs in standard IEEE 802.11 based wireless local area networks (WLANs). Although different solutions are available in the literature that seek to address the handoff latency, most of them propose changes that are outside the purview of the current 802.11 standards. We have specifically kept such compatibility restrictions in mind and have devised a software based client side solution that is capable of reducing handoff delays to an average value of 20 ms. It is available as a driver update to the client and requires no additional support from the network. As part of our solution, we have successfully implemented and tested our proposed solution framework on Atheros AR5212 chipsets using the open source MadWifi driver.

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来源期刊

2009 17th International Workshop on Quality of Service

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