Study of smart grid cyber-security, examining architectures, communication networks, cyber-attacks, countermeasure techniques, and challenges

IF 3.9 4区 计算机科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS Cybersecurity Pub Date : 2024-05-02 DOI:10.1186/s42400-023-00200-w
Batoul Achaal, Mehdi Adda, Maxime Berger, Hussein Ibrahim, Ali Awde
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Abstract

Smart Grid (SG) technology utilizes advanced network communication and monitoring technologies to manage and regulate electricity generation and transport. However, this increased reliance on technology and connectivity also introduces new vulnerabilities, making SG communication networks susceptible to large-scale attacks. While previous surveys have mainly provided high-level overviews of SG architecture, our analysis goes further by presenting a comprehensive architectural diagram encompassing key SG components and communication links. This holistic view enhances understanding of potential cyber threats and enables systematic cyber risk assessment for SGs. Additionally, we propose a taxonomy of various cyberattack types based on their targets and methods, offering detailed insights into vulnerabilities. Unlike other reviews focused narrowly on protection and detection, our proposed categorization covers all five functions of the National Institute of Standards and Technology cybersecurity framework. This delivers a broad perspective to help organizations implement balanced and robust security. Consequently, we have identified critical research gaps, especially regarding response and recovery mechanisms. This underscores the need for further investigation to bolster SG cybersecurity. These research needs, among others, are highlighted as open issues in our concluding section.

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研究智能电网网络安全,审查架构、通信网络、网络攻击、应对技术和挑战
智能电网(SG)技术利用先进的网络通信和监控技术来管理和调节发电和输电。然而,对技术和连接的依赖性增加也带来了新的漏洞,使智能电网通信网络容易受到大规模攻击。以往的调查主要是对 SG 架构进行高层次的概述,而我们的分析则更进一步,提出了一个包含关键 SG 组件和通信链路的综合架构图。这种全面的视角增强了对潜在网络威胁的理解,并实现了对 SG 的系统性网络风险评估。此外,我们还根据攻击目标和方法,提出了各种网络攻击类型的分类法,提供了对漏洞的详细见解。与其他狭隘地关注保护和检测的审查不同,我们提出的分类涵盖了美国国家标准与技术研究院网络安全框架的所有五项功能。这提供了一个广阔的视角,可帮助组织实施平衡、稳健的安全措施。因此,我们发现了关键的研究缺口,尤其是在响应和恢复机制方面。这凸显了进一步调查以加强 SG 网络安全的必要性。这些研究需求以及其他研究需求将在我们的结论部分作为开放性问题予以强调。
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来源期刊
Cybersecurity
Cybersecurity Computer Science-Information Systems
CiteScore
7.30
自引率
0.00%
发文量
77
审稿时长
9 weeks
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