自相交曲面的框架:稳定性的对称优化

arXiv - CS - Mathematical Software Pub Date : 2023-12-04 DOI:arxiv-2312.02113

Christian Amend, Tom Goertzen

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引用次数: 0

摘要

本文给出了一种稳定有效的方法来固定给定嵌入的简单复合体上的自交和非流形部分。此外，我们还展示了如何使用对称属性进行进一步优化。证明了内嵌简单复合体外壳计算的一个初始化准则。为了使三角曲面的外表面规整化，提出了一种非流形边和点的修正方法。我们也给出了一种修正的外壳算法来确定复合体的腔室，这产生了许多新的见解。所有这些方法在许多领域都有应用，例如3D打印，3D模型的艺术实现或修复应用于断层扫描的扫描设备引入的错误。给出了该算法在计算机代数系统GAP4中的实现。为了验证我们的方法，我们使用了高度自相交对称二十面体的数据集。

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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A Framework for Self-Intersecting Surfaces (SOS): Symmetric Optimisation for Stability

In this paper, we give a stable and efficient method for fixing self-intersections and non-manifold parts in a given embedded simplicial complex. In addition, we show how symmetric properties can be used for further optimisation. We prove an initialisation criterion for computation of the outer hull of an embedded simplicial complex. To regularise the outer hull of the retriangulated surface, we present a method to remedy non-manifold edges and points. We also give a modification of the outer hull algorithm to determine chambers of complexes which gives rise to many new insights. All of these methods have applications in many areas, for example in 3D-printing, artistic realisations of 3D models or fixing errors introduced by scanning equipment applied for tomography. Implementations of the proposed algorithms are given in the computer algebra system GAP4. For verification of our methods, we use a data-set of highly self-intersecting symmetric icosahedra.

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arXiv - CS - Mathematical Software

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