Investigating cyber-physical attacks against IEC 61850 photovoltaic inverter installations

2015 IEEE 20th Conference on Emerging Technologies & Factory Automation (ETFA) Pub Date : 2015-10-26 DOI:10.1109/ETFA.2015.7301457

Boojoong Kang, P. Maynard, K. Mclaughlin, S. Sezer, F. Andrén, C. Seitl, F. Kupzog, T. Strasser

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引用次数: 67

Abstract

Cyber-attacks against Smart Grids have been found in the real world. Malware such as Havex and BlackEnergy have been found targeting industrial control systems (ICS) and researchers have shown that cyber-attacks can exploit vulnerabilities in widely used Smart Grid communication standards. This paper addresses a deep investigation of attacks against the manufacturing message specification of IEC 61850, which is expected to become one of the most widely used communication services in Smart Grids. We investigate how an attacker can build a custom tool to execute man-in-the-middle attacks, manipulate data, and affect the physical system. Attack capabilities are demonstrated based on NESCOR scenarios to make it possible to thoroughly test these scenarios in a real system. The goal is to help understand the potential for such attacks, and to aid the development and testing of cyber security solutions. An attack use-case is presented that focuses on the standard for power utility automation, IEC 61850 in the context of inverter-based distributed energy resource devices; especially photovoltaics (PV) generators.

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调查针对IEC 61850光伏逆变器装置的网络物理攻击

针对智能电网的网络攻击已经在现实世界中被发现。像Havex和BlackEnergy这样的恶意软件已经被发现针对工业控制系统(ICS)，研究人员已经表明，网络攻击可以利用广泛使用的智能电网通信标准中的漏洞。本文深入研究了针对IEC 61850制造消息规范的攻击，该规范有望成为智能电网中最广泛使用的通信服务之一。我们将研究攻击者如何构建自定义工具来执行中间人攻击、操纵数据和影响物理系统。攻击能力基于NESCOR场景进行演示，以便在真实系统中彻底测试这些场景。目标是帮助了解此类攻击的可能性，并帮助开发和测试网络安全解决方案。在基于逆变器的分布式能源设备背景下，提出了一个针对电力自动化标准IEC 61850的攻击用例;特别是光伏发电机。

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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2015 IEEE 20th Conference on Emerging Technologies & Factory Automation (ETFA)

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