Opportunistic Geographic Forwarding in Wireless Sensor Networks for Critical Rare Events

David C. Harrison, Winston K.G. Seah, Hang Yu, R. Rayudu
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引用次数: 3

Abstract

Wireless sensor networks for rarely occurring critical events must maintain sensing coverage and low latency network connectivity to ensure event detection and subsequent rapid propagation of notification messages. Existing geographic forwarding algorithms have proved successful in providing energy efficient network connectivity for arbitrary topologies where sensing coverage is not guaranteed. This paper proposes a location aware algorithm for Swift Opportunistic Forwarding of Infrequent Events (SOFIE) that takes advantage of geometric properties common to sensing networks providing perfect area coverage. The algorithm is shown to deliver more rapid message propagation than two established, general purpose geographic forwarding algorithm in optimally and randomly placed networks of varied sensing node density. Further, the algorithm is shown to maintain this advantage when deployed in a coverage preserving, duty-cycled sensing network where nodes may power down whilst the network is actively forwarding event notification messages.
关键罕见事件无线传感器网络中的机会地理转发
用于很少发生的关键事件的无线传感器网络必须保持感知覆盖和低延迟网络连接,以确保事件检测和随后的通知消息快速传播。现有的地理转发算法已被证明能够成功地为无法保证传感覆盖的任意拓扑提供高能效的网络连接。本文提出了一种位置感知算法,用于快速机会转发罕见事件(SOFIE),该算法利用传感网络的共同几何特性提供完美的区域覆盖。在不同感知节点密度的最佳和随机放置网络中,该算法比两种已建立的通用地理转发算法提供更快速的消息传播。此外,该算法被证明在部署在覆盖保持、占空比感知网络时保持这一优势,其中节点可能在网络主动转发事件通知消息时断电。
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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