Enhancing analysability and time predictability in UML/MARTE component-based application models

2015 Forum on Specification and Design Languages (FDL) Pub Date : 2015-11-12 DOI:10.1109/FDL.2015.7306365

F. Herrera, P. Peñil, E. Villar

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引用次数: 1

Abstract

This paper presents how to integrate formally based models relying on the Synchronous Dataflow Model-of- Computation (MoC) in a UML/MARTE component-based application model. This model corresponds to a flexible and expressive modelling methodology, which facilitates finding and building an application model with the intended semantics, but does not help to ensure a strict fulfilment of functional and extrafunctional requirements. However, this capability has become a need in the context of modelling mixed-criticality applications. This paper shows how the component-based UML/MARTE models captured in such a flexible methodology can integrate parts transformable into synchronous data-flows. This formalism facilitates the analysis of the functional and extra-functional properties of such parts. Specifically, the paper shows a set of modelling patterns which can be translated into SDF counterparts. Relying on these patterns, a framework has been implemented which enables a bi-directional interoperability between the UML/MARTE models abiding the patterns and the formally-based ForSyDe methodology.

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增强基于UML/MARTE组件的应用程序模型中的可分析性和时间可预测性

本文介绍了如何在基于UML/MARTE组件的应用程序模型中集成依赖于同步数据流计算模型(MoC)的形式化模型。此模型对应于灵活且富有表现力的建模方法，该方法有助于查找和构建具有预期语义的应用程序模型，但不能帮助确保严格满足功能和功能外需求。然而，在混合临界应用的建模环境中，这种能力已经成为一种需要。本文展示了在这种灵活的方法中捕获的基于组件的UML/MARTE模型如何将可转换的部件集成到同步数据流中。这种形式有利于分析这些部件的功能和功能外属性。具体而言，本文展示了一组可以转换为SDF对应的建模模式。依靠这些模式，已经实现了一个框架，它支持遵循模式的UML/MARTE模型和基于形式的ForSyDe方法之间的双向互操作性。

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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2015 Forum on Specification and Design Languages (FDL)

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