Model-driven engineering applied to Smart Grid automation using IEC 61850 and IEC 61499

2014 Power Systems Computation Conference Pub Date : 2014-08-01 DOI:10.1109/PSCC.2014.7038498

F. Andrén, T. Strasser, W. Kastner

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引用次数: 18

Abstract

In order to guarantee a sustainable electric energy supply the power systems domain is currently in a transformation phase. Renewable energy sources have to be installed on a large scale causing a more complex operation of the power distribution grids due its stochastic behavior. Advanced automation and information technology approaches, concepts and algorithms are being applied to operate such complex systems. Interoperability and standardized interfaces are important topics which have to be considered realizing a Smart Grid. A standard-compliant formal approach for the modeling of power utility automation and control applications is missing up to now. This paper therefore introduces a novel approach using the well-known model-driven engineering concept from computer science for the development of Smart Grid automation applications. This method focuses on the usage of the power utility interoperability approach IEC 61850 and the distributed automation reference model IEC 61499 as basis for the proposed modeling concept. An overview of the engineering method, corresponding transformation rules as well as an explanatory example are provided.

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模型驱动工程应用于智能电网自动化使用IEC 61850和IEC 61499

为了保证可持续的电力供应，电力系统领域目前正处于转型阶段。可再生能源由于其随机特性，必须大规模安装，使配电网运行更加复杂。先进的自动化和信息技术方法、概念和算法正被应用于操作这些复杂的系统。互操作性和标准化接口是实现智能电网必须考虑的重要问题。目前还缺乏一种符合标准的电力自动化和控制应用建模的形式化方法。因此，本文介绍了一种利用计算机科学中众所周知的模型驱动工程概念来开发智能电网自动化应用的新方法。该方法的重点是使用电力公司互操作性方法IEC 61850和分布式自动化参考模型IEC 61499作为提出的建模概念的基础。概述了工程方法，给出了相应的转换规则，并举例说明。

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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2014 Power Systems Computation Conference

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