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The Generic Design of a High-Traffic Advanced Metering Infrastructure Using ZigBee

机译:使用ZigBee的高流量高级计量基础架构的通用设计

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摘要

A multi-interface ZigBee building area network (MIZBAN) for a high-traffic advanced metering infrastructure (AMI) for high-rise buildings was developed. This supports meter management functions such as Demand Response for smart grid applications. To cater for the high-traffic communication in these building area networks (BANs), a multi-interface management framework was defined and designed to coordinate the operation between multiple interfaces based on a newly defined tree-based mesh (T-Mesh) ZigBee topology, which supports both mesh and tree routing in a single network. To evaluate MIZBAN, an experiment was set up in a five-floor building. Based on the measured data, simulations were performed to extend the analysis to a 23-floor building. These revealed that MIZBAN yields an improvement in application-layer latency of the backbone and the floor network by 75% and 67%, respectively. This paper provides the design engineer with seven recommendations for a generic MIZBAN design, which will fulfill the requirement for demand response by the U.S. government, i.e. a latency of less than 0.25 s.
机译:开发了用于高层建筑的高流量高级计量基础设施(AMI)的多接口ZigBee建筑局域网(MIZBAN)。这支持电表管理功能,例如针对智能电网应用程序的需求响应。为了满足这些建筑区域网络(BAN)中的高流量通信,定义并设计了多接口管理框架,以基于新定义的基于树的网格(T-Mesh)ZigBee拓扑协调多个接口之间的操作。 ,它在单个网络中同时支持网格和树状路由。为了评估MIZBAN,在五层楼的建筑中进行了实验。根据测量的数据,进行了模拟,以将分析扩展到23层建筑物。这些结果表明,MIZBAN可使骨干网和底层网络的应用程序层延迟分别提高75%和67%。本文为设计工程师提供了针对通用MIZBAN设计的七个建议,这些建议将满足美国政府对需求响应的要求,即延迟小于0.25 s。

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