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引用次数: 16
摘要
节能通信协议是无线传感器网络(WSNs)的主要设计目标。在节能方面已经做了很多努力:带占空比的MAC、能量感知路由协议、数据聚合方案等。近年来,无信标策略已成为提高无线传感器网络寿命的新方向。然而,由于基于平面化或显式邻居请求的漏洞避免策略,主要贡献不适合实际无线电环境。我们提出PFMAC (Pizza- Forwarding Medium Access Control,披萨转发介质访问控制),它通过跨层设计将无信标地理路由和节能MAC协议相结合,以节省更多的能源和更高的可靠性。PFMAC支持无线电干扰,非对称无线电链路等。PFMAC支持贪婪转发策略和响应式优化的2跳邻域发现来处理漏洞。为了突出PFMAC与BOSS / BMAC之间的行为和性能,提出了密集的仿真。
Energy-efficient communication protocol is a primary design goal for Wireless Sensor Networks (WSNs). Many efforts have been done to save energy: MAC with duty cycle, energy-aware routing protocols, data aggregation schemes, etc. Recently, beacon-less strategies have emerged as new direction to improve considerably the WSN lifetime. However, the main contributions are not suitable to real radio environments because of hole avoiding strategies based on either planarization or explicit neighbor solicitations. We propose PFMAC (Pizza- Forwarding Medium Access Control), which combines beacon-less geo-routing and energy efficient MAC protocol via a cross-layer design to save more energy with higher reliability. PFMAC supports radio interferences, asymmetric radio links, etc. PFMAC supports a greedy forwarding strategy and, a reactive and optimized neighborhood discovery at 2-hop to deal with holes. Intensive simulations are proposed to highlight the behavior and the performance of PFMAC compared to BOSS over BMAC.
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