Supporting heterogeneous traffic in wireless sensor networks

2006 1st International Symposium on Wireless Pervasive Computing Pub Date : 2006-04-10 DOI:10.1109/ISWPC.2006.1613562

S. Poonvasin, N. Pathommanit

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引用次数: 4

Abstract

We consider an energy-aware packet transmission node that supports packets of two types: real-time packets and non real-time packets. Several energy-aware packet scheduling schemes are explored and discussed. Using the average delay of non real-time packets and the rejection rate of real-time packets as performance metrics, a scheduling scheme for this purpose is proposed. It is composed of two scheduling stages. In the early stage, each packet type is scheduled independently on the per type basis. They are then merged using PGPS into the second stage where the transmission speed for each packet is assigned. The packets are then transmitted using dynamic modulation scaling (DMS). The method has been evaluated using simulation and compared against one in which energy savings schemes are not incorporated. The result shows that not only does it provide a fair share of bandwidth (low rejected packets for real-time packets and low delay for non real-time packets) between these streams, but it also saves the overall transmission energy, particularly in the light load case, where as much as 90% savings can be obtained.

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支持无线传感器网络中的异构业务

我们考虑一个能量感知的数据包传输节点，它支持两种类型的数据包:实时数据包和非实时数据包。探讨了几种能量感知的分组调度方案。以非实时数据包的平均延迟和实时数据包的拒绝率为性能指标，提出了一种用于此目的的调度方案。它由两个调度阶段组成。在早期阶段，每个数据包类型都是基于每个类型独立调度的。然后使用PGPS将它们合并到第二阶段，在第二阶段为每个数据包分配传输速度。然后使用动态调制缩放(DMS)传输数据包。该方法已通过模拟进行了评估，并与未纳入节能方案的方法进行了比较。结果表明，它不仅在这些流之间提供了公平的带宽份额(实时数据包的低拒绝数据包和非实时数据包的低延迟)，而且还节省了整体传输能量，特别是在轻负载情况下，可以获得多达90%的节省。

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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2006 1st International Symposium on Wireless Pervasive Computing

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