Requirements for hybrid cosimulation standards

Proceedings of the 18th International Conference on Hybrid Systems: Computation and Control Pub Date : 2015-04-14 DOI:10.1145/2728606.2728629

David Broman, L. Greenberg, Edward A. Lee, M. Masin, S. Tripakis, M. Wetter

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引用次数: 59

Abstract

This paper defines a suite of requirements for future hybrid cosimulation standards, and specifically provides guidance for development of a hybrid cosimulation version of the Functional Mockup Interface (FMI). A cosimulation standard defines interfaces that enable diverse simulation tools to interoperate. Specifically, one tool defines a component that forms part of a simulation model in another tool. We focus on components with inputs and outputs that are functions of time, and specifically on mixtures of discrete events and continuous time signals. This hybrid mixture is not well supported by existing cosimulation standards, and specifically not by FMI 2.0, for reasons that are explained in this paper. The paper defines a suite of test components, giving a mathematical model of an ideal behavior, plus a discussion of practical implementation considerations. The discussion includes acceptance criteria by which we can determine whether a standard supports definition of each component. In addition, we define a set of test compositions that define requirements for coordination between components, including consistent handling of timed events.

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混合协同仿真标准要求

本文定义了未来混合协同仿真标准的一套需求，并具体提供了功能模拟接口(FMI)的混合协同仿真版本的开发指南。协同仿真标准定义了使各种仿真工具能够互操作的接口。具体来说，一个工具定义了在另一个工具中构成仿真模型一部分的组件。我们关注的是具有时间函数的输入和输出的组件，特别是离散事件和连续时间信号的混合。现有的联合模拟标准，特别是FMI 2.0，并没有很好地支持这种混合，原因将在本文中解释。本文定义了一套测试组件，给出了理想行为的数学模型，并讨论了实际实现的考虑因素。讨论包括验收标准，通过它我们可以确定一个标准是否支持每个组件的定义。此外，我们定义了一组测试组合，这些组合定义了组件之间协调的需求，包括对定时事件的一致处理。

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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Proceedings of the 18th International Conference on Hybrid Systems: Computation and Control

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