Integrated Smart Grid simulations for generic automation architectures with RT-LAB and mosaik

2014 IEEE International Conference on Smart Grid Communications (SmartGridComm) Pub Date : 2014-11-01 DOI:10.1109/SmartGridComm.2014.7007645

Martin Büscher, Arno Claassen, M. Kube, S. Lehnhoff, Klaus Piech, S. Rohjans, Stefan Scherfke, C. Steinbrink, Jorge Velasquez, Francois Tempez, Yahia Bouzid

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引用次数: 39

Abstract

Although, a variety of established tools for analysis of power systems already exists, it is in the medium term very unlikely that one of these tools alone will provide all functionalities and models that are required to simulate future Smart Grids in all its facets. This is mainly due to the high number of Smart Grid use cases, actors, and technologies to be integrated that is not known from other industries so far. Accordingly, a mixture of various different and established tools will be required. These, again, have to be composed in use cases specific to complex and system-wide scenarios. Therefore, tools such as simulation platforms and suites are required that are additionally capable of integrating software and hardware models and components. Therefore, the proposed approach is an integrated concept allowing for analyzing large-scale scenarios taking into consideration both, stationary and dynamic simulations in real-time.

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基于RT-LAB和mosaik的通用自动化体系结构集成智能电网仿真

虽然已经存在各种用于分析电力系统的工具，但从中期来看，这些工具中的任何一个都不太可能单独提供模拟未来智能电网所有方面所需的所有功能和模型。这主要是由于大量的智能电网用例、参与者和需要集成的技术，这是迄今为止其他行业所不知道的。因此，将需要各种不同的和已建立的工具的混合。同样，这些必须在特定于复杂和系统范围场景的用例中组合。因此，需要诸如仿真平台和套件之类的工具，这些工具还需要能够集成软件和硬件模型和组件。因此，所提出的方法是一个集成的概念，允许分析大规模场景，同时考虑到实时的静态和动态模拟。

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

2014 IEEE International Conference on Smart Grid Communications (SmartGridComm)

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