变电站弹性驱动的网络物理风险评估和投资规划

IF 4.9 2区 计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS IEEE Transactions on Control Systems Technology Pub Date : 2024-04-03 DOI:10.1109/TCST.2024.3378990
Kush Khanna;Manimaran Govindarasu
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引用次数: 0

摘要

随着能源系统进入更大的网络物理系统(CPS)领域,能源系统基础设施面临的网络威胁可能会增加。必须定期评估和分析网络安全战略,以建立和维护 CPS 的网络复原力。随着对电网变电站的物理和网络攻击的增加,必须优先考虑提高 CPS 运行弹性的支出。本文介绍了一种用于变电站电力系统风险分析和投资规划的网络-物理综合范例。为了应对和有效管理网络物理风险,本文提出的方法将电力系统的恢复能力与网络脆弱性结合起来,并采用成熟度指标等级(MIL)概念。利用防御者与攻击者之间的互动,分析了各种攻击情景下的防御策略。通过比较无信息、全信息和部分信息防御者-攻击者互动的防御者策略,以获得尽可能降低整体风险的最佳投资策略。所提出的框架针对 PJM 五总线和 IEEE 39 总线系统进行了模拟和验证。
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Resiliency-Driven Cyber–Physical Risk Assessment and Investment Planning for Power Substations
As energy systems move into the larger domains of cyber–physical systems (CPSs), cyber threats on energy system infrastructure are likely to increase. Cybersecurity strategies must be evaluated and analyzed regularly to establish and maintain cyber resilience in CPS. With increased physical and cyber assaults on electrical grid power substations, it is critical to prioritize expenditures to enhance operational CPS resilience. An integrated cyber–physical paradigm for power system risk analysis and investment planning for power substations is presented in this article. To address and effectively manage cyber–physical risks, the proposed approach integrates power system resilience with cyber vulnerabilities capturing the maturity indicator level (MIL) concept. The defense strategies are analyzed for various attack scenarios using defender–attacker interactions. The defender’s strategies for no-information, full-information, and partial-information defender–attacker interactions are compared to obtain the best possible investment strategy for minimizing the overall risk. The presented framework is simulated and validated for PJM five-bus and IEEE 39 bus systems.
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来源期刊
IEEE Transactions on Control Systems Technology
IEEE Transactions on Control Systems Technology 工程技术-工程:电子与电气
CiteScore
10.70
自引率
2.10%
发文量
218
审稿时长
6.7 months
期刊介绍: The IEEE Transactions on Control Systems Technology publishes high quality technical papers on technological advances in control engineering. The word technology is from the Greek technologia. The modern meaning is a scientific method to achieve a practical purpose. Control Systems Technology includes all aspects of control engineering needed to implement practical control systems, from analysis and design, through simulation and hardware. A primary purpose of the IEEE Transactions on Control Systems Technology is to have an archival publication which will bridge the gap between theory and practice. Papers are published in the IEEE Transactions on Control System Technology which disclose significant new knowledge, exploratory developments, or practical applications in all aspects of technology needed to implement control systems, from analysis and design through simulation, and hardware.
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