Knowledge Models to Reduce the Gap between Heterogeneous Models: Application to Aircraft Systems Engineering

2010 15th IEEE International Conference on Engineering of Complex Computer Systems Pub Date : 2010-03-22 DOI:10.1109/ICECCS.2010.35

David Simon Zayas, A. Monceaux, Y. A. Ameur

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引用次数: 10

Abstract

The need to manage the complexity of current systems encourages the use of models in Engineering processes. Systems Engineering is a multi-domain discipline which implies a wide variety of heterogeneous design models in the life-cycle of the system. Furthermore, dividing of the work and the advent of collaborative engineering techniques require combination of these heterogeneous models in order to achieve the overall engineering process. In such a context, we propose a methodology making possible to interoperate existing heterogeneous design models. Our approach fastens upon knowledge in order to annotate and homogenize the models. More precisely, we claim that design models can be completed or clarified with shared domain knowledge, i.e. ontologies, which is mastered by the engineers but usually not formalized. Moreover, this methodology is not intrusive since it aims to link models by developing an additional model of relations which allows keeping the traceability to the original models.

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减少异构模型之间差距的知识模型:在飞机系统工程中的应用

管理当前系统复杂性的需要鼓励在工程过程中使用模型。系统工程是一门多领域的学科，它意味着在系统的生命周期中存在各种各样的异构设计模型。此外，工作的划分和协作工程技术的出现需要将这些异构模型结合起来，以实现整个工程过程。在这种情况下，我们提出了一种使现有异构设计模型的互操作成为可能的方法。我们的方法依赖于知识，以便对模型进行注释和均质化。更准确地说，我们声称设计模型可以通过共享的领域知识(即本体)来完成或澄清，这些知识由工程师掌握，但通常没有形式化。此外，这种方法并不具有侵入性，因为它旨在通过开发允许保持对原始模型的可追溯性的附加关系模型来连接模型。

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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2010 15th IEEE International Conference on Engineering of Complex Computer Systems

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