《电力自动化设备》

引用本文:	陈柯任,文福拴,赵俊华,李力,杨银国,谭嫣.考虑物理-信息虚拟连接的电力信息物理融合系统的脆弱性评估[J].电力自动化设备,2017,37(12):
	CHEN Keren,WEN Fushuan,ZHAO Junhua,LI Li,YANG Yinguo,TAN Yan.Vulnerability assessment of cyber-physical power system considering virtual cyber-physical connections[J].Electric Power Automation Equipment,2017,37(12):

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考虑物理-信息虚拟连接的电力信息物理融合系统的脆弱性评估
陈柯任¹, 文福拴¹, 赵俊华², 李力³, 杨银国³, 谭嫣³
1.浙江大学电气工程学院，浙江杭州 310027;2.香港中文大学(深圳)理工学院，广东深圳 518100;3.广东电网有限责任公司电力调度控制中心，广东广州 510600

摘要:

不断发展的自动化与信息技术的广泛应用明显提高了现代电力系统的运行水平，电力信息系统与电力物理系统的融合也逐步广泛和深入，从而进化为电力信息物理融合系统(CPPS)。在CPPS中，信息设备的故障会影响物理系统的安全可靠运行，而外部对物理与信息元件的攻击则可能导致停电事故。在此背景下，为了分析物理元件与信息元件的交互影响，将CPPS抽象模拟为物理节点、物理-物理连接、信息节点、信息-信息连接与信息-物理连接5类元素，并在此基础上评估信息系统受损对物理系统运行的影响。在博弈论的框架下构建了双层数学规划模型分别对物理与信息环节进行了防御资源分配，用于量化存在假想攻击下系统中各环节的重要程度。以修改的IEEE 14节点系统为例进行了仿真计算，结果验证了所提方法的可行性与有效性。

关键词: 电力信息物理融合系统脆弱性评估信息-物理连接最优切负荷双层数学规划

DOI：10.16081/j.issn.1006-6047.2017.12.009

分类号:TM761

基金项目:国家高技术研究发展计划(863计划)资助项目(2015AA050202)；广东电网有限责任公司科技项目(GDKJQQ20153001)

Vulnerability assessment of cyber-physical power system considering virtual cyber-physical connections

CHEN Keren¹, WEN Fushuan¹, ZHAO Junhua², LI Li³, YANG Yinguo³, TAN Yan³

1.College of Electrical Engineering, Zhejiang University, Hangzhou 310027, China;2.School of Science and Engineering, Chinese University of Hong Kong(Shenzhen),Shenzhen 518100, China;3.Power Dispatch and Control Center of Guangdong Power Grid, Guangzhou 510600, China

Abstract:

The wide applications of the ever-developing automation and communication technologies have significantly enhanced the operation level of modern power system, while the interactions between the power information system and the power physical system are becoming more extensively and more in-depth, and hence the cyber-physical power system is formed. In the cyber-physical power system, the failure of information equipment has impacts on the security and reliability of power physical system, while attacks from outsiders against either physical or information equipment may result in power supply interruptions. On this background, the cyber-physical power system is simulated as five elements: physical node, physical-physical link, cyber-node, cyber-cyber link and cyber-physical link, to analyze the interactive influence between physical equipment and information equipment, based on which, the influence of information system failure on the operation of physical system is assessed. A bi-level mathematic programming model under the game theory framework is established for distributing defending resources on information and power modules, to quantify the importance degrees of modules under given attacks. The modified IEEE 14-bus power system is simulated and calculated, whose results verify the feasibility and effectiveness of the proposed method.

Key words: cyber-physical power system vulnerability assessment cyber-physical link optimal load shedding bi-level mathematic programming

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