基于负载感知电位的内容中心网络智能电网边缘通信路由

Xiaotong Wang, Lanlan Rui, Hui Guo, Xue-song Qiu
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引用次数: 0

摘要

随着物联网的发展,智能电网边缘的设备和应用越来越多。为了提高服务质量,对智能电网进行进一步处理以实现负载均衡是至关重要的一步。智能电网通信中最有趣的元素是数据本身,而不管数据源是什么。以内容为中心的应急网络(CCN)正是满足了这一需求,解决了这一问题。首先用内容中心网络对智能电网进行建模,重点研究其边缘通信。在此基础上,提出了一种基于负载感知电位的路由算法,并对其性能进行了评价。仿真结果表明了该方法的稳定性和鲁棒性。
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Load-aware potential-based routing for the edge communication of smart grid with content-centric network
With the development of Internet of Things, there are more and more devices and applications at the edge of the smart grid. To enhance the quality of service, further processing of the smart grid to achieve load balancing is regarded as a critical step. The most interesting element in smart grid communications is data itself regardless of the data source. The emergency of Content-Centric network (CCN) just meets the demands and addresses the problems. First we model the smart grid with Content-Centric Network, and concentrate on the edge communication. Then we propose a load-aware potential-based routing (LAPBR) algorithm and evaluate its performances. The simulations results demonstrate the stability and robustness of LAPBR.
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