On the Role of Graph Theory Apparatus in a CAD Modeling Kernel

Proceedings of the 30th International Conference on Computer Graphics and Machine Vision (GraphiCon 2020). Part 2 Pub Date : 2020-12-17 DOI:10.51130/graphicon-2020-2-3-70

S. Slyadnev, A. Malyshev, A. Voevodin, V. Turlapov

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引用次数: 4

Abstract

This paper summarizes the experience of authors in solving a broad range of CAD modeling problems where the formalism of graph theory demonstrates its expressive power. Some results reported in this paper have never been published elsewhere. The set of topological and geometric heuristics backing the subgraph isomorphism algorithm is presented to achieve decent performance in our extensible feature recognition framework. By the example of sheet metal features, we show that using wise topological and geometric heuristics speeds up the search process up to interactive performance rates. For detecting CAD part’s type, we present the connected components’ analysis in the attributed adjacency graph. Our approach allows for identifying two-sided CAD parts, such as sheet metals, tubes, and flat plates. We use the notion of face transition graph for the unfoldability analysis. The basic operations on hierarchical assembly graphs are formalized in terms of graph theory for handling CAD assemblies. We describe instance singling operation that allows for addressing unique part’s occurrences in the component tree of an assembly. The presented algorithms and ideas demonstrated their efficiency and accuracy in the bunch of industrial applications developed by our team.

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论图论工具在CAD建模核中的作用

本文总结了作者在解决广泛的CAD建模问题方面的经验，其中图论的形式主义展示了它的表现力。本文报道的一些结果从未在其他地方发表过。在我们的可扩展特征识别框架中，提出了一组支持子图同构算法的拓扑和几何启发式算法，以获得良好的性能。以钣金特征为例，我们展示了使用明智的拓扑和几何启发式加快了搜索过程，达到了交互性能率。为了检测CAD零件的类型，我们在属性邻接图中给出了连通部件的分析。我们的方法允许识别双面CAD零件，如金属板、管和平板。我们使用人脸过渡图的概念进行可折叠性分析。用图论的方法形式化了分层装配图的基本操作，以处理CAD装配。我们描述了实例单点操作，该操作允许寻址组件树中出现的唯一部件。所提出的算法和思想在我们团队开发的大量工业应用中证明了它们的效率和准确性。

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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Proceedings of the 30th International Conference on Computer Graphics and Machine Vision (GraphiCon 2020). Part 2

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