Attacker Localization with Machine Learning in RS-485 Industrial Control Networks

2023 IEEE 19th International Conference on Factory Communication Systems (WFCS) Pub Date : 2023-04-26 DOI:10.1109/WFCS57264.2023.10144114

H. Ochiai, Md. Delwar Hossain, Y. Kadobayashi, H. Esaki

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Abstract

Cyber-attacks on industrial control systems (ICSs) may cause huge damage to our society and our lives. RS-485 is a backbone network for many ICSs deployed worldwide as a standard. Attack detection in the RS-485 network has been studied in the past. However, the operator still needs to identify and eliminate the attacker in the network after detected, which may require a huge downtime of the system. We propose an attacker localization framework for RS-485 networks. This framework uses (1) a current transformer for monitoring the analog signals of the communication line and (2) machine learning for detecting and localizing the attacker. We have carried out a performance evaluation on a 200-meter scale testbed and found that regression-based localization model performed the best with an averaging aggregator. It could estimate the location of the attacker with about 100% accuracy if we could obtain 6 or 10 attacker points in the training dataset. It could also estimate the location with 93%-96% accuracy with only 4 attacker training points, which would be still practically useful for finding the attacker in RS-485 network.

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RS-485工业控制网络中基于机器学习的攻击者定位

针对工业控制系统(ics)的网络攻击可能会对我们的社会和生活造成巨大的破坏。RS-485是全球部署的许多ics的骨干网络标准。RS-485网络中的攻击检测已经在过去进行了研究。但是，在检测到攻击者后，运营商仍然需要识别和消除网络中的攻击者，这可能需要大量的系统停机时间。我们提出了一个针对RS-485网络的攻击者定位框架。该框架使用(1)电流互感器来监控通信线路的模拟信号，(2)机器学习来检测和定位攻击者。我们在一个200米尺度的测试平台上进行了性能评估，发现基于回归的定位模型在平均聚合器下表现最好。如果我们能在训练数据集中获得6或10个攻击者点，它可以估计攻击者的位置，准确率约为100%。它还可以仅用4个攻击者训练点就以93%-96%的准确率估计位置，这对于在RS-485网络中寻找攻击者仍然是实用的。

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 19th International Conference on Factory Communication Systems (WFCS)

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