A Python-Based Simulation Software for Monitoring the Operability State of Critical Infrastructures Under Emergency Conditions

2018 IEEE International Conference on Electro/Information Technology (EIT) Pub Date : 2018-05-03 DOI:10.1109/EIT.2018.8500219

T. Koch, D. Möller, Andreas Deutschmann

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引用次数: 5

Abstract

Due to the increasing number of cyber attacks and blackouts at critical infrastructures, the topic of critical infrastructure security and safety did not only reach a high media presence within the last years, but also gained attention within security research. The first step to increase the resilience and preparedness of critical infrastructures is to understand the impact of external stimulation on its operability. Therefore, we successfully build a Python-based simulation software based on the cyber-physical system model from Koch et al. (IEEE EIT 2017 [1]), which is able to predict the operating conditions in cases of blackouts, power shortages or cyber attacks. The software is dynamically verified by building and simulating the time-dependent operability state of a small network in cases of varying load conditions and a cyber attack event. With its easy understandable graphical user interface the software will be able to support the future planning of critical infrastructures and testing its performance under emergency conditions.

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基于python的关键基础设施应急运行状态监测仿真软件

由于关键基础设施的网络攻击和停电事件越来越多，关键基础设施安全和安全的话题在过去几年中不仅得到了媒体的高度关注，而且在安全研究中得到了关注。提高关键基础设施的恢复能力和准备能力的第一步是了解外部刺激对其可操作性的影响。因此，我们成功构建了基于Koch等人(IEEE EIT 2017[1])的网络物理系统模型的基于python的仿真软件，该软件能够预测停电、电力短缺或网络攻击情况下的运行状况。通过构建和模拟小型网络在不同负载条件和网络攻击事件下随时间变化的可操作性状态，对软件进行了动态验证。凭借其易于理解的图形用户界面，该软件将能够支持关键基础设施的未来规划，并在紧急情况下测试其性能。

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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来源期刊

2018 IEEE International Conference on Electro/Information Technology (EIT)

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