无论是否存在奇异顶点,都能在三角形网格中进行可靠的孔检测

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Mauhing Yip , Annette Stahl , Christian Schellewald
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引用次数: 0

摘要

在这项工作中,我们提出了一种边界和孔洞检测方法,它可以遍历边-曲面三角形网格的所有边界,而不管是否存在奇异顶点,随后确定并标记网格的所有孔洞。所提出的自动孔洞检测方法对计算机辅助设计(CAD)领域非常有价值,因为网格中的所有边界边都会被利用,而且对于每个边界边,算法都能保证与其相关的边界的存在性和唯一性。由于现有的孔洞检测方法假定不存在奇异顶点或可能需要修改网格,因此这些方法不适合检测现实世界中包含奇异顶点的网格中的边界/孔洞。我们利用基于点云数据的表面重建方法,在水下自主机器人应用中演示了该方法。在这种情况下,确定的孔洞可以解释为信息差距,从而在数据采集过程中及时采取纠正措施。不过,我们的方法并不局限于这两个领域,它还可以应用于任何边缘-曲面三角形网格。我们在合成数据和实际数据(包括从多波束声纳获取的点云中得到的三角形网格)上对该方法进行了评估。我们的参考实现的源代码可在以下网站获取:https://github.com/Mauhing/hole-detection-on-triangle-mesh。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Robust Hole-Detection in Triangular Meshes Irrespective of the Presence of Singular Vertices

Robust Hole-Detection in Triangular Meshes Irrespective of the Presence of Singular Vertices

In this work, we present a boundary and hole detection approach that traverses all the boundaries of an edge-manifold triangular mesh, irrespectively of the presence of singular vertices, and subsequently determines and labels all holes of the mesh. The proposed automated hole-detection method is valuable to the computer-aided design (CAD) community as all boundary-edges within the mesh are utilized and for each boundary-edge the algorithm guarantees both the existence and the uniqueness of the boundary associated to it. As existing hole-detection approaches assume that singular vertices are absent or may require mesh modification, these methods are ill-equipped to detect boundaries/holes in real-world meshes that contain singular vertices. We demonstrate the method in an underwater autonomous robotic application, exploiting surface reconstruction methods based on point cloud data. In such a scenario the determined holes can be interpreted as information gaps, enabling timely corrective action during the data acquisition. However, the scope of our method is not confined to these two sectors alone; it is versatile enough to be applied on any edge-manifold triangle mesh. An evaluation of the method is performed on both synthetic and real-world data (including a triangle mesh from a point cloud obtained by a multibeam sonar). The source code of our reference implementation is available: https://github.com/Mauhing/hole-detection-on-triangle-mesh.

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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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