智能电网网络物理安全的网络联合测试平台:架构、应用和评估

IF 1.7 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS
Vivek Kumar Singh, Manimaran Govindarasu, Donald Porschet, Edward Shaffer, Morris Berman
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引用次数: 1

摘要

随着当今电网向紧密互联的网络物理系统(CPS)发展,在现实的电网环境中进行网络安全实验,需要一个高保真、多方面的测试平台环境。传统的独立CPS测试平台缺乏在实时环境中模拟多个智能电网域之间复杂的网络物理相互依赖关系的能力。因此,正在进行的研究和开发(R&D)努力通过共享地理上分散的试验台资源来开发一个互连的CPS试验台,在分析仿真保真度的同时执行分布式仿真。本文提出了一个网络联合测试平台,用于当今和新兴智能电网环境的网络安全评估。具体地说,它提出了两种新的测试平台体系结构,包括网络联合和网络物理联合,确定了研发应用,并通过实验案例研究描述了测试平台构建块。提出了一种新型的协同仿真接口算法,实现了网络物理联盟内的分布式仿真。爱荷华州立大学(ISU)的PowerCyber CPS安全测试平台和美国陆军研究实验室的可用资源被用于开发该平台,用于执行与电力系统广域保护和控制应用相关的多个实验案例研究。最后给出了实验结果,分析了试验台联合的仿真逼真度和实时性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

NEFTSec: Networked federation testbed for cyber-physical security of smart grid: Architecture, applications, and evaluation

NEFTSec: Networked federation testbed for cyber-physical security of smart grid: Architecture, applications, and evaluation

As today's power grid is evolving into a densely interconnected cyber-physical system (CPS), a high fidelity and multifaceted testbed environment is needed to perform cybersecurity experiments in a realistic grid environment. Traditional standalone CPS testbeds lack the ability to emulate complex cyber-physical interdependencies between multiple smart grid domains in a real-time environment. Therefore, there are ongoing research and development (R&D) efforts to develop an interconnected CPS testbed by sharing geographically dispersed testbed resources to perform distributed simulation while analysing simulation fidelity. This paper presents a networked federation testbed for cybersecurity evaluation of today's and emerging smart grid environments. Specifically, it presents two novel testbed architectures, including cyber federation and cyber-physical federation, identifies R&D applications, and also describes testbed building blocks with experimental case studies. It also presents a novel co-simulation interface algorithm to facilitate distributed simulation within cyber-physical federation. The resources available at the PowerCyber CPS security testbed at Iowa State University (ISU) and the US Army Research Laboratory are utilised to develop this platform for performing multiple experimental case studies pertaining to wide-area protection and control applications in power system. Finally, experimental results are presented to analyse the simulation fidelity and real-time performance of the testbed federation.

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来源期刊
IET Cyber-Physical Systems: Theory and Applications
IET Cyber-Physical Systems: Theory and Applications Computer Science-Computer Networks and Communications
CiteScore
5.40
自引率
6.70%
发文量
17
审稿时长
19 weeks
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