RACE: A Real-Time Scheduling Policy and Communication Architecture for Large-Scale Wireless Sensor Networks

2009 Seventh Annual Communication Networks and Services Research Conference Pub Date : 2009-05-11 DOI:10.1109/CNSR.2009.84

K. Mizanian, Reza Hajisheykhi, M. Baharloo, A. Jahangir

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引用次数: 34

Abstract

In wireless sensor networks (WSN), individual sensor nodes are inherently unreliable and have very limited capabilities to ensure real-time properties. In fact, one of the most predominant limitations in wireless sensor networks is energy consumption, which hinders the capacity of the network to provide real-time guarantees (e.g. low duty-cycles, low transmission range). Many approaches have been proposed to deal with energy/latency trade-offs, but they are likely to be insufficient for the applications where reduced delay guarantee is the main concern. We present and evaluate a packet scheduling policy and routing algorithm called RACE that inherently accounts for time constraints. We show that this algorithm is particularly suitable for communication in sensor networks in which a large number of wireless devices are seamlessly integrated into a physical space to perform real-time monitoring and control. Detailed simulations of representative sensor network environments demonstrate that RACE significantly reduces the end-to-end deadline and miss ratio in the sensor network. Also RACE will balance load and energy consumption of network and life time of network will be increased.

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RACE:大规模无线传感器网络的实时调度策略和通信体系结构

在无线传感器网络(WSN)中，单个传感器节点本质上是不可靠的，并且在确保实时性方面的能力非常有限。事实上，无线传感器网络中最主要的限制之一是能量消耗，这阻碍了网络提供实时保证的能力(例如低占空比，低传输范围)。已经提出了许多方法来处理能量/延迟权衡，但是对于主要关注减少延迟保证的应用程序，它们可能是不够的。我们提出并评估了一种称为RACE的数据包调度策略和路由算法，该算法固有地考虑了时间限制。我们表明，该算法特别适用于传感器网络中的通信，其中大量无线设备无缝集成到物理空间中以执行实时监控和控制。典型传感器网络环境的详细仿真表明，RACE显著降低了传感器网络的端到端截止日期和缺失率。RACE还可以平衡网络的负载和能耗，提高网络的使用寿命。

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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2009 Seventh Annual Communication Networks and Services Research Conference

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