智能电网安全中同时攻击的漏洞分析

2017 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT) Pub Date : 2017-04-01 DOI:10.1109/ISGT.2017.8086078

S. Paul, Z. Ni

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引用次数: 25

摘要

电网基础设施已经从不同的角度暴露在恐怖分子和网络攻击中，并导致了关键的系统故障。在不同的攻击策略中，如果有足够的资源，攻击者可以同时进行攻击。本文利用改进的级联故障模拟器，研究了同时攻击下的漏洞分析问题，减少了现有方法的计算时间。提出了一种考虑发电功率损失和达到稳态状态所需时间损失的新型损伤测量矩阵。从攻击者的角度来看，能够在最短时间内导致系统完全停电的攻击组合被认为是对系统最强的同时攻击。该方法可用于一般的电力系统测试用例。本文在w&w6总线系统和ieee30总线系统上进行了实验，对结果进行了验证。改进后的仿真器可以自动找到在发电功率损失和达到停电时间方面达到最大伤害的最强攻击组合。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Vulnerability analysis for simultaneous attack in smart grid security

Power grid infrastructures have been exposed to several terrorists and cyber attacks from different perspectives and have resulted in critical system failures. Among different attack strategies, simultaneous attack is feasible for the attacker if enough resources are available at the moment. In this paper, vulnerability analysis for simultaneous attack is investigated, using a modified cascading failure simulator with reduced calculation time than the existing methods. A new damage measurement matrix is proposed with the loss of generation power and time to reach the steady-state condition. The combination of attacks that can result in a total blackout in the shortest time are considered as the strongest simultaneous attack for the system from attacker's viewpoint. The proposed approach can be used for general power system test cases. In this paper, we conducted the experiments on W&W 6 bus system and IEEE 30 bus system for demonstration of the result. The modified simulator can automatically find the strongest attack combinations for reaching maximum damage in terms of generation power loss and time to reach black-out.

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2017 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT)

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