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Cyber-Physical Security and Resiliency Analysis Testbed for Critical Microgrids with IEEE 2030.5

机译：具有IEEE 2030.5的关键微电网的网络物理安全性和弹性分析试验台

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The development of more resilient grids is an on-going effort that has attracted multiple participants. Within this context, Distributed Energy Resources, along with transactive energy mechanisms are being considered as the key driving technologies. Yet their under-laying communication capabilities might introduce additional cybersecurity risks that must be analysed. This paper proposes a cyber-physical microgrid testbed using OpenDSS, Mininet and IEEE 2030.5 that can be used to study the grid’s cyber-resilience under various scenarios. For critical microgrid installations, it is essential that the critical loads are served in spite of multiple contingencies. A resiliency analysis is proposed for a military microgrid to study its performance with these contingencies and the results are analyzed.

机译：开发更具弹性的网格是一项持续不断的工作，吸引了众多参与者。在这种情况下，分布式能源以及交互式能源机制被认为是关键的驱动技术。然而，它们的底层通信功能可能会带来其他必须分析的网络安全风险。本文提出了一种使用OpenDSS，Mininet和IEEE 2030.5的网络物理微网测试平台，可用于研究各种情况下网格的网络弹性。对于关键的微电网安装，至关重要的是尽管有多种意外情况，但仍要承受关键的负载。提出了一种针对军事微电网的弹性分析，以研究在这些意外情况下的性能，并对结果进行分析。

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《Workshop on Modeling and Simulation of Cyber-Physical Energy Systems 》|2020年|1-6|共6页
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Partha S. Sarker; V. Venkataramanan; D. Sebastian Cardenas; A. Srivastava; A. Hahn; B. Miller;
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Cyber-attacks; industrial control; cyber-physical systems; microgrid automation; defense microgrid; cyber-vulnerabilities; SCADA; CVSS; resiliency;

机译：网络攻击;工业控制;网络物理系统;微电网自动化;防御微电网;网络漏洞; SCADA; CVSS;弹性;

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1. CP-SAM: Cyber-Physical Security Assessment Metric for Monitoring Microgrid Resiliency [J] . Smart Grid, IEEE Transactions on . 2020 ,第2期

机译：CP-SAM：用于监视微电网弹性的网络物理安全评估指标
2. CyPhyR: a cyber-physical analysis tool for measuring and enabling resiliency in microgrids [J] . Venkatesh Venkataramanan, Adam Hahn, Anurag Srivastava IET Cyber-Physical Systems: Theory & Applications . 2019 ,第4期

机译：扣留：用于测量和在微电网中弹性的网络物理分析工具
3. Cyber-Physical Microgrids: Toward Future Resilient Communities [J] . Vu Tuyen V., Nguyen Bang L. H., Cheng Zheyuan, IEEE industrial electronics magazine . 2020 ,第3期

机译：网络物理微电网：对未来的弹性社区
4. Real-time co-simulation testbed for microgrid cyber-physical analysis [C] . Venkatesh Venkataramanan, Anurag Srivastava, Adam Hahn Workshop on Modeling and Simulation of Cyber-Physical Energy Systems . 2016

机译：实时协同仿真试验台，用于微电网网络物理分析
5. Cyber-physical Modeling and Analysis for Smart Grids: Resiliency & Cyber Security [D] . Hammad, Eman. 2018

机译：智能电网的网络物理建模和分析：弹性和网络安全
6. Low-cost web-based Supervisory Control and Data Acquisition system for a microgrid testbed: A case study in design and implementation for academic and research applications [O] . Carlos Vargas-Salgado, Jesus Aguila-Leon, Cristian Chiñas-Palacios, 2019

机译：用于微电网测试台的低成本基于Web的监控和数据采集系统：在学术和研究应用程序的设计和实现中的案例研究
7. A Cyber-Physical Security Analysis of Synchronous-Islanded Microgrid Operation [O] . Friedberg, Ivo, Laverty, David, McLaughlin, Kieran, 2015

机译：同步岛微电网运行的网络物理安全性分析

Cyber-Physical Security and Resiliency Analysis Testbed for Critical Microgrids with IEEE 2030.5

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