Digital Twin-Enhanced Methodology for Training Edge-Based Models for Cyber Security Applications

David Allison, Philip Smith, K. Mclaughlin
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引用次数: 1

Abstract

Digital twins can address the problem of data scarcity during the training machine learning models, as they can be used to simulate and explore a range of process conditions and system states that are too difficult or dangerous to explore in real-world Cyber-Physical Systems (CPSs). Meanwhile, advances in industrial control systems technology have enabled increasingly complex functionality to be deployed on or near so-called edge devices, such as Programmable Logic Controllers (PLCs).In this paper, we propose a methodology for training a machine learning model offline using data extracted from a digital twin, before converting the model for deployment on an edge device to perform anomaly detection. To examine the model’s suitability for anomaly detection, we execute several simulations of fault conditions. Results show that the model can successfully predict normal operations as well as identify faults and cyber-attacks. There is a negligible drop in performance on the edge device, when compared to executing the model on a personal computer, but it remains suitable for the application.
为网络安全应用培训基于边缘的模型的数字孪生增强方法
数字孪生可以在训练机器学习模型期间解决数据稀缺的问题,因为它们可以用来模拟和探索一系列在现实世界的网络物理系统(cps)中难以探索的过程条件和系统状态。同时,工业控制系统技术的进步使得越来越复杂的功能可以部署在所谓的边缘设备上或附近,例如可编程逻辑控制器(plc)。在本文中,我们提出了一种方法,在将模型转换为部署在边缘设备上以执行异常检测之前,使用从数字孪生中提取的数据离线训练机器学习模型。为了检验该模型对异常检测的适用性,我们对故障条件进行了多次模拟。结果表明,该模型既能预测正常运行,又能识别故障和网络攻击。与在个人计算机上执行模型相比,边缘设备上的性能下降可以忽略不计,但它仍然适合应用程序。
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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