Grid-ViDS: A Smart Grid Co-Simulation Platform for Virtual Device Simulation

2022 Resilience Week (RWS) Pub Date : 2022-09-26 DOI:10.1109/RWS55399.2022.9984028

D. Sebastian-Cardenas, Hussain M. Mustafa, A. Hahn, Amal Srivastava

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引用次数: 2

Abstract

In this work, we present a generic co-simulation platform that allows researchers to evaluate and test the effects of communication networks within distribution systems to support analyzing cyber-resilience. The developed set of tools seeks to simplify the exchange of electrical data with external controllers/systems while at the same time offering the ability to evaluate the effects of different communication network architectures and/or events. The proposed solution is built around OpenDSS and Mininet using a python-based wrapper, potentially enabling the integration of third-party libraries with ease. To demonstrate this concept, the paper presents a Modbus-based DER control platform that has been coupled to the IEEE 13 bus system; a cyber-physical system that could be used to assess the cyber-resilience of different volt-var control strategies. Our paper specifically focuses on highlighting the effort-saving features that could be of interest to researchers and developers, potentially reducing the number of resources needed to build such systems from scratch. Finally, this paper represents the first public release of our tool.

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Grid- vids:面向虚拟设备仿真的智能电网联合仿真平台

在这项工作中，我们提出了一个通用的联合仿真平台，使研究人员能够评估和测试配电系统中通信网络的影响，以支持分析网络弹性。开发的工具集旨在简化与外部控制器/系统的电气数据交换，同时提供评估不同通信网络架构和/或事件影响的能力。提出的解决方案是围绕OpenDSS和Mininet构建的，使用基于python的包装器，可以轻松地集成第三方库。为了证明这一概念，本文提出了一个基于modbus的DER控制平台，该平台已与IEEE 13总线系统耦合;一个可用于评估不同电压无功控制策略的网络弹性的网络物理系统。我们的论文特别强调了研究人员和开发人员可能感兴趣的省力特性，潜在地减少了从头开始构建此类系统所需的资源数量。最后，本文代表了我们的工具的第一个公开发行版。

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

2022 Resilience Week (RWS)

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