Emerging Coordinated Cyber-Physical-Systems Attacks and Adaptive Restoration Strategies

2023 IEEE PES Grid Edge Technologies Conference & Exposition (Grid Edge) Pub Date : 2023-04-10 DOI:10.1109/GridEdge54130.2023.10102741

Mazhar Ali, X. Gao, A. Rahman, Musabbir Hossain, Wei Sun

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Abstract

A cyber-physical-system (CPS) framework serves as the foundation for the modern architecture of critical infrastructures, including electrical power grids, oil and natural gas distribution, transportation systems, and many more. Although the CPS design has assisted in the reliable, efficient, and robust service of physical systems, concurrently it has raised tremendous concern about secure and resilient operation due to the coupling and the presence of several hardware and software products among different CPS layers. These vulnerabilities have opened up a new avenue for adversaries to deploy coordinated cyber-physical attacks, with difficult detection, isolation, and recovery of the CPS. In this paper, we use smart grids and telecommunication networks as an example to elaborate on emerging challenges and analyze new types of coordinated cyber-physical attacks, such as multistage and multiwave attacks. A general model is presented for multistage and multiwave attacks along with adaptive restoration strategies for resilient recovery. The proposed framework is applicable to other CPS as well.

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新兴的协同网络物理系统攻击和适应性恢复策略

网络物理系统(CPS)框架是关键基础设施的现代架构的基础，包括电网、石油和天然气分配、运输系统等等。虽然CPS设计有助于物理系统的可靠、高效和健壮的服务，但同时由于不同CPS层之间的耦合和多个硬件和软件产品的存在，它引起了对安全性和弹性操作的极大关注。这些漏洞为对手部署协同网络物理攻击开辟了新的途径，难以检测、隔离和恢复CPS。在本文中，我们以智能电网和电信网络为例，阐述了新出现的挑战，并分析了新型的协同网络物理攻击，如多阶段和多波攻击。提出了多阶段多波攻击的通用模型，并提出了弹性恢复的自适应恢复策略。建议的架构亦适用于其他CPS。

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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2023 IEEE PES Grid Edge Technologies Conference & Exposition (Grid Edge)

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