Xu Zhang, Kefeng Wei, Lei Guo, Weigang Hou, Jingjing Wu
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引用次数: 19
摘要
现有基于同步数字层次(Synchronous Digital Hierarchy, SDH)的电力/数据通信网络由于具有异构性和分布式控制的特点,已不能满足智能电网中动态资源分配和细粒度流量监控的要求。基于openflow的软件定义网络(SDN)允许运营商使用运行在集中控制器(如NOX控制器)操作系统上的软件动态控制和监控整个网络。NOX控制器可以动态配置端到端路径。因此,本文针对智能电网扩容和故障场景,提出了基于sdn的弹性解决方案。验证了弹性解决方案的可行性和效率,特别是在我们的实验平台上定量评估了NOX控制器的CPU利用率和端到端延迟等性能。实验结果表明,采用基于sdn的弹性解决方案,可以在数十毫秒内实现动态端到端路径恢复。
Due to the nature of heterogeneity and distributed control, the existing electric power/data communication network based on Synchronous Digital Hierarchy (SDH) has been unable to meet the requirements of dynamic resource allocation and fine-grained traffic monitoring in smart grids. The OpenFlow-based Software Defined Network (SDN) allows operators dynamically control and monitor the whole network using the software running on the operating system of the centralized controller (e.g., NOX controller). And NOX controller can dynamically configure end-to-end paths. Thus in this paper, we propose SDN-based resilience solutions for the scenarios of network expansion and fault in smart grids. The feasibility and efficiency of the proposed resilience solutions is verified, especially, the performances, such as the CPU utilization of NOX controller and end-to-end delay, are quantitatively evaluated in our experimental platform. The experimental results indicate that the dynamic end-to-end path restoration can be achieved within tens of milliseconds by using our SDN-based resilience solutions.
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