Topology switching-based moving target defense against false data injection attacks on a power system

IF 5 2区工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC International Journal of Electrical Power & Energy Systems Pub Date : 2024-11-12 DOI:10.1016/j.ijepes.2024.110350

Qi Wang, Shutan Wu, Zhong Wu, Jianxiong Hu, Quanpeng He, Yujian Ye, Yi Tang

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引用次数: 0

Abstract

False data injection attacks (FDIAs), as strategically designed cyberattacks, can bypass bad data detection mechanisms and thus pose potential economic and stability risks to power systems. In addition to increasing the detection capability of the system, the proactive property transformation of the system can effectively utilize the information gap between the attacker and the system operator, increasing the detection rate against FDIAs. In this paper, a moving target defense (MTD) method based on topology switching (TS) actions is proposed to overcome FDIAs. Specifically, we investigated the feasibility of proactive defense via TS actions, which reconfigured the topology via busbar switching. To make sequential defense decisions on the basis of the perceived current state of the system, the game between the attacker and the defender was modeled as a Markov decision process (MDP). Finally, the deep reinforcement learning-based MTD optimal algorithm was designed to achieve a fast and efficient decision-making strategy. The simulation results demonstrated the effects of the proposed method against FDIAs.

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基于拓扑切换的移动目标防御，抵御电力系统的虚假数据注入攻击

虚假数据注入攻击（FDIAs）作为一种经过战略设计的网络攻击，可以绕过不良数据检测机制，从而给电力系统带来潜在的经济和稳定风险。除了提高系统的检测能力，系统的主动属性转换还能有效利用攻击者与系统操作者之间的信息差距，提高对 FDIA 的检测率。本文提出了一种基于拓扑切换（TS）行动的移动目标防御（MTD）方法来克服 FDIA。具体来说，我们研究了通过 TS 行动进行主动防御的可行性，TS 行动通过母线切换重新配置拓扑结构。为了根据感知到的系统当前状态做出顺序防御决策，我们将攻防双方之间的博弈建模为马尔可夫决策过程（MDP）。最后，设计了基于深度强化学习的 MTD 优化算法，以实现快速高效的决策策略。仿真结果表明了所提出的方法对 FDIA 的效果。

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来源期刊

International Journal of Electrical Power & Energy Systems 工程技术-工程：电子与电气

CiteScore

12.10

自引率

17.30%

发文量

1022

审稿时长

51 days

期刊介绍： The journal covers theoretical developments in electrical power and energy systems and their applications. The coverage embraces: generation and network planning; reliability; long and short term operation; expert systems; neural networks; object oriented systems; system control centres; database and information systems; stock and parameter estimation; system security and adequacy; network theory, modelling and computation; small and large system dynamics; dynamic model identification; on-line control including load and switching control; protection; distribution systems; energy economics; impact of non-conventional systems; and man-machine interfaces. As well as original research papers, the journal publishes short contributions, book reviews and conference reports. All papers are peer-reviewed by at least two referees.