文章摘要
李培恺,刘云,辛焕海.分布式协同控制模式下配电网信息物理系统脆弱性评估[J].电力系统自动化. DOI: 10.7500/AEPS20170705002.
LI Peikai,LIU Yun,XIN Huanhai.Vulnerability Assessment of Cyber-Physical Distribution Network System with Distributed Cooperative Control Mode[J].Automation of Electric Power Systems. DOI: 10.7500/AEPS20170705002.
分布式协同控制模式下配电网信息物理系统脆弱性评估
Vulnerability Assessment of Cyber-Physical Distribution Network System with Distributed Cooperative Control Mode
DOI:10.7500/AEPS20170705002
关键词: 分布式协同控制  配电网信息物理系统  动态博弈  脆弱性评估  网络攻击
KeyWords: distributed cooperative control  cyber-physical distribution network system  dynamic game  vulnerability assessment  cyber attacks
上网日期:2018-04-11
基金项目:国家高技术研究发展计划(863计划)项目(NO.2015AA050202);国家自然科学基金资助项目(NO.51577168);浙江省电力公司科技项目“主动配电网规划模式研究(NO.5211JY15001Q)”资助。
作者单位E-mail
李培恺 浙江大学电气工程学院 li_peikai@zju.edu.cn 
刘云 深圳大学机电与控制工程学院 liuyun19881026@gmail.com 
辛焕海 浙江大学电气工程学院 xinhh@zju.edu.cn 
摘要:
      分布式协同控制模式的提出,为解决未来配电网信息物理系统(cyber-physical systems, CPS)中高密度、强随机性分布式电源接入问题提供了途径。但同时,配电网CPS信息物理高度融合的特点也方便了网络攻击者通过信息系统威胁电力系统的安全稳定运行。据此,本文提出一种基于动态攻防博弈的配电网CPS分布式协同控制脆弱性评估方法。首先,阐述一种分布式电源等输出比协同控制策略,并对其收敛特性进行了分析和总结;其次,基于CPS风险评估框架,结合分布式电源协同控制策略及实际网络攻防策略的特点,提出分布式协同控制风险评估模型;在此基础上,设计动态攻防博弈函数及博弈求解步骤,实现对于分布式协同控制模式下配电网CPS脆弱性的量化评估;最后,基于IEEE 34节点配电系统开展仿真测试验证了本文所提方法的有效性。
Abstract:
      Distributed cooperative control mode is an effective approach to overcome the problem of integrating multiple and strongly random distributed generators (DGs) into cyber-physical distribution network system. However, due to the in-tegration between cyber and physical layers, cyber attacks could threat the safe and stable operation of power system through invading the cyber system. Toward this end, a dynamic attack-defense game model based vulnerability as-sessment of distributed cooperative control against cyber-physical distribution network system is proposed. Firstly, a cooperative control strategy of DGs is described, and its convergence property is analyzed and summarized. Then, a risk assessment of distributed cooperative control is developed, which integrates the risk assessment method, the coop-erative control strategy of DGs and strategies of attacker and defender. After that, the dynamic attack-defense game function and its solving steps are designed, which achieves the vulnerability assessment of cyber-physical distribution network system with distributed cooperative control mode. Finally, the effectiveness of the proposed method is verified through simulations involving the IEEE 34-bus test feeder.
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