用变化驱动的模型转换对仿真轨迹进行反向注释

2010 8th IEEE International Conference on Software Engineering and Formal Methods Pub Date : 2010-09-13 DOI:10.1109/SEFM.2010.28

Ábel Hegedüs, Gábor Bergmann, I. Ráth, Dániel Varró

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引用次数: 48

摘要

模型驱动分析旨在通过自动导出数学模型，在高级设计模型中及早发现设计缺陷。这些分析模型随后由正式的验证和确认(V&V)工具进行调查，这些工具可能检索违反特定需求的痕迹。反向注释旨在将V&V工具的结果映射回设计模型，以突出故障的真正来源，以便于进行必要的修改。在此，我们提出了一种基于变化驱动模型转换的模拟轨迹反向注释技术。分析模型的模拟跟踪将作为变更模型进行持久化，并使用高级变更命令表示跟踪的宏步骤。该跟踪使用变更驱动的转换规则对设计模型进行反向注释，这些规则弥合了分析和设计跟踪中的宏步骤之间的概念差异。我们的概念将在使用Petri网模拟器分析BPEL流程的反向注释问题上进行演示。

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Back-annotation of Simulation Traces with Change-Driven Model Transformations

Model-driven analysis aims at detecting design flaws early in high-level design models by automatically deriving mathematical models. These analysis models are subsequently investigated by formal verification and validation (V&V) tools, which may retrieve traces violating a certain requirement. Back-annotation aims at mapping back the results of V&V tools to the design model in order to highlight the real source of the fault, to ease making necessary amendments. Here we propose a technique for the back-annotation of simulation traces based on change-driven model transformations. Simulation traces of analysis models will be persisted as a change model with high-level change commands representing macro steps of a trace. This trace is back-annotated to the design model using change-driven transformation rules, which bridge the conceptual differences between macro steps in the analysis and design traces. Our concepts will be demonstrated on the back-annotation problem for analyzing BPEL processes using a Petri net simulator.

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2010 8th IEEE International Conference on Software Engineering and Formal Methods

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