Moving-Target Defense for Detecting Coordinated Cyber-Physical Attacks in Power Grids

2019 IEEE International Conference on Communications, Control, and Computing Technologies for Smart Grids (SmartGridComm) Pub Date : 2019-08-06 DOI:10.1109/SmartGridComm.2019.8909767

S. Lakshminarayana, E. Belmega, H. Poor

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引用次数: 24

Abstract

This work proposes a moving target defense (MTD) strategy to detect coordinated cyber-physical attacks (CCPAs) against power grids. A CCPA consists of a physical attack, such as disconnecting a transmission line, followed by a coordinated cyber attack that injects false data into the sensor measurements to mask the effects of the physical attack. Such attacks can lead to undetectable line outages and cause significant damage to the grid. The main idea of the proposed approach is to invalidate the knowledge that the attackers use to mask the effects of the physical attack by actively perturbing the grid’s transmission line reactances using distributed flexible AC transmission system (D-FACTS) devices. We identify the MTD design criteria in this context to thwart CCPAs. The proposed MTD design consists of two parts. First, we identify the subset of links for D-FACTS device deployment that enables the defender to detect CCPAs against any link in the system. Then, in order to minimize the defense cost during the system’s operational time, we use a game-theoretic approach to identify the best subset of links (within the D-FACTS deployment set) to perturb which will provide adequate protection. Extensive simulations performed using the MATPOWER simulator on IEEE bus systems verify the effectiveness of our approach in detecting CCPAs and reducing the operator’s defense cost.

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移动目标防御检测电网协同网络物理攻击

本文提出了一种移动目标防御(MTD)策略，用于检测针对电网的协同网络物理攻击(ccpa)。CCPA包括物理攻击，例如断开传输线，然后是协同网络攻击，向传感器测量中注入虚假数据，以掩盖物理攻击的影响。这种攻击可能导致无法察觉的线路中断，并对电网造成重大损害。所提出的方法的主要思想是使攻击者使用分布式柔性交流传输系统(D-FACTS)设备主动干扰电网的传输线电抗来掩盖物理攻击效果的知识失效。我们在这种情况下确定MTD设计标准以阻止ccpa。提出的MTD设计包括两个部分。首先，我们确定用于D-FACTS设备部署的链路子集，使防御者能够检测针对系统中任何链路的ccpa。然后，为了最大限度地减少系统运行期间的防御成本，我们使用博弈论方法来确定(在D-FACTS部署集中)的最佳链路子集，以提供足够的保护。在IEEE总线系统上使用MATPOWER模拟器进行了广泛的仿真，验证了我们的方法在检测ccpa和降低运营商防御成本方面的有效性。

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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来源期刊

2019 IEEE International Conference on Communications, Control, and Computing Technologies for Smart Grids (SmartGridComm)

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