S. Madani, D. Weber, S. Mahlknecht
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引用次数: 6

摘要

本文提出了一种用于低功耗数据中心无线传感器网络的无表位置路由(TPR)方案。TPR是局部化的,采用贪婪转发方法,不依赖邻域信息。这些特征减少了通信开销(没有邻居信息交换),使协议具有高度可扩展性(当节点离开或进入网络时不维护路由表和不交换信标),并且在移动环境中性能更好(因为下一跳是不确定的,并且是实时计算的)。它还通过分布式和本地化的恢复策略处理死胡同问题。TPR是在基于omnet++的离散事件仿真环境PAWiS(低功耗无线传感器网络仿真框架)中实现的。结果表明,TPR提供了保证交付、延长网络寿命和基于端到端延迟和/或能量消耗的路由机制。
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TPR: Dead end aware table less position based routing scheme for low power data-centric wireless sensor networks
In this paper we present a Table less Position based Routing (TPR) scheme for low power data centric wireless sensor networks. TPR is localized, uses greedy forwarding approach, and does not rely on neighborhood information. These characteristics reduce the communication overhead (no neighborhood information exchange), make the protocol highly scalable (no routing tables are maintained and beacons are not exchanged when a node leaves or enters the networks), and it performs better in mobile environments (as the next hop is non-deterministic and is computed at real time). It also deals with dead end problems by a recovery strategy in a distributed and localized way. TPR is implemented in the OMNET++ based discrete event simulation environment PAWiS (simulation framework for low power wireless sensor networks). The results show that TPR provides guaranteed delivery, extended network life time, and a mechanism to route on the basis of end to end delay and/or energy consumption.
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