传感器网络中的实时功率感知路由

200614th IEEE International Workshop on Quality of Service Pub Date : 2006-11-30 DOI:10.1109/IWQOS.2006.250454

O. Chipara, Zhimin He, G. Xing, Qin Chen, Xiaorui Wang, Chenyang Lu, J. Stankovic, T. Abdelzaher

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引用次数: 391

摘要

许多无线传感器网络应用必须解决节能通信与实现所需服务质量(如端到端通信延迟)之间的内在冲突。为了解决这一挑战，我们提出了实时功率感知路由(RPAR)协议，该协议通过动态调整传输功率和路由决策，以低能耗实现应用指定的通信延迟。RPAR具有功率感知转发策略和针对资源受限无线传感器进行优化的高效邻居管理器。此外，RPAR解决了无线传感器网络中的重要实际问题，包括有损链路、可扩展性以及严重的内存和带宽限制。基于MICA2 motes真实无线电模型的仿真表明，与现有的实时节能路由协议相比，RPAR显著减少了错过截止日期的数量和能耗

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Real-time Power-Aware Routing in Sensor Networks

Many wireless sensor network applications must resolve the inherent conflict between energy efficient communication and the need to achieve desired quality of service such as end-to-end communication delay. To address this challenge, we propose the real-time power-aware routing (RPAR) protocol, which achieves application-specified communication delays at low energy cost by dynamically adapting transmission power and routing decisions. RPAR features a power-aware forwarding policy and an efficient neighborhood manager that are optimized for resource-constrained wireless sensors. Moreover, RPAR addresses important practical issues in wireless sensor networks, including lossy links, scalability, and severe memory and bandwidth constraints. Simulations based on a realistic radio model of MICA2 motes show that RPAR significantly reduces the number of deadlines missed and energy consumption compared to existing real-time and energy-efficient routing protocols

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200614th IEEE International Workshop on Quality of Service

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