Intrusion Detection from Synchrophasor Data propagation using Cyber Physical Platform

2021 IEEE Conference on Technologies for Sustainability (SusTech) Pub Date : 2021-04-22 DOI:10.1109/SusTech51236.2021.9467414

Vishwajit Roy, Subrina Noureen, Sharif Atique, S. Bayne, M. Giesselmann

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Abstract

Some of the recent reports show that Power Grid is a target of attack and gradually the need for understanding the security of Grid network is getting a prime focus. The Department of Homeland Security has imposed focus on Cyber Threats on Power Grid in their "Cyber Security Strategy,2018" [1] . DHS has focused on innovations to manage risk attacks on Power System based national resources. Power Grid is a cyber physical system which consists of power flow and data transmission. The important part of a microgrid is the two-way power flow which makes the system complex on monitoring and control. In this paper, we have tried to study different types of attacks which change the data propagation of Synchrophasor, network communication interruption behavior and find the data propagation scenario due to attack. The focus of the paper is to develop a platform for Synchrophasor based data network attack study which is a part of Microgrid design. Different types of intrusion models were studied to observe change in Synchrophasor data pattern which will help for further prediction to improve Microgrid resiliency for different types of cyber-attack.

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基于网络物理平台的同步数据传播入侵检测

最近的一些报告表明，电网是攻击的目标，对电网网络安全性的认识逐渐成为人们关注的焦点。国土安全部在其“2018年网络安全战略”中重点关注电网的网络威胁[1]。国土安全部专注于创新，以管理基于国家资源的电力系统风险攻击。电网是一个由潮流和数据传输组成的网络物理系统。微电网的重要组成部分是双向潮流，这使得系统的监测和控制变得复杂。在本文中，我们试图研究不同类型的攻击，这些攻击改变了同步量的数据传播，网络通信中断行为，并找到了由于攻击而导致的数据传播场景。本文的重点是开发一个基于同步相量的数据网络攻击研究平台，这是微电网设计的一部分。研究不同类型的入侵模型，观察同步量数据模式的变化，有助于进一步预测，提高微电网对不同类型网络攻击的弹性。

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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2021 IEEE Conference on Technologies for Sustainability (SusTech)

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