Cooperative packet scheduling via pipelining in 802.11 wireless networks

E-WIND '05 Pub Date : 2005-08-22 DOI:10.1145/1080148.1080156

R. Kompella, Sriram Ramabhadran, I. Ramani, A. Snoeren

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引用次数: 15

Abstract

The proliferation of 802.11a/b/g based wireless devices has fueled their adoption in many domains -- some of which are unforseen. Yet, these devices lack native support for some of the advanced features (such as service differentiation, etc.) required in specific application domains. A subset of these features relies on cooperative scheduling whereby nodes cooperate among each other to effectively manage resources such as power, throughput and interference in wireless networks. The trajectory of evolution in these devices has been primarily through new extension standards (such as 802.11e/s etc.) that offer support for these features. Plagued with long design cycles and cost overhead to upgrade, this process of upgrading creates an uphill task to users who want to use their wireless devices for different applications. In this paper, we argue that such cooperative scheduling extensions can be supported using a new layer on top of the existing MAC layer. We propose a 2½- pipeline architecture as a generic mechanism to create such domain specific extensions and propose two such protocols, SPARTA (power conservation) and ARGOS (throughput guarantees) over the native 802.11/b/g MAC layer.

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802.11无线网络中通过流水线的协作分组调度

基于802.11a/b/g的无线设备的激增推动了它们在许多领域的采用，其中一些是不可预见的。然而，这些设备缺乏对特定应用程序领域所需的一些高级特性(如服务差异化等)的本地支持。这些特性的一个子集依赖于协作调度，即节点之间相互合作，以有效地管理无线网络中的功率、吞吐量和干扰等资源。这些设备的发展轨迹主要是通过新的扩展标准(如802.11e/s等)来提供对这些特性的支持。由于设计周期长，升级成本高，对于希望将无线设备用于不同应用的用户来说，升级过程是一项艰巨的任务。在本文中，我们认为这种协作调度扩展可以在现有的MAC层之上使用一个新的层来支持。我们提出了一个2½管道架构作为通用机制来创建这种特定于域的扩展，并提出了两个这样的协议，SPARTA(功率节约)和ARGOS(吞吐量保证)在本机802.11/b/g MAC层。

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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E-WIND '05

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