Connectivity-preserving Smooth Surface Filling with Sharp Features

Proceedings. Pacific Conference on Computer Graphics and Applications Pub Date : 2019-01-01 DOI:10.2312/pg.20191332

Thibault Lescoat, Pooran Memari, Jean-Marc Thiery, M. Ovsjanikov, T. Boubekeur

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引用次数: 1

Abstract

We present a method for constructing a surface mesh filling gaps between the boundaries of multiple disconnected input components. Unlike previous works, our method pays special attention to preserving both the connectivity and large-scale geometric features of input parts, while maintaining efficiency and scalability w.r.t. mesh complexity. Starting from an implicit surface reconstruction matching the parts’ boundaries, we first introduce a modified dual contouring algorithm which stitches a meshed contour to the input components while preserving their connectivity. We then show how to deform the reconstructed mesh to respect the boundary geometry and preserve sharp feature lines, smoothly blending them when necessary. As a result, our reconstructed surface is smooth and propagates the feature lines of the input. We demonstrate on a wide variety of input shapes that our method is scalable to large input complexity and results in superior mesh quality compared to existing techniques. CCS Concepts • Computing methodologies → Shape modeling; Mesh models; Mesh geometry models;

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具有尖锐特征的保持连通性的光滑表面填充

我们提出了一种构造表面网格填充多个不连接输入组件边界之间空隙的方法。与以往的工作不同，我们的方法特别注意保持输入部件的连通性和大规模几何特征，同时保持效率和可扩展性。从匹配零件边界的隐式表面重构开始，我们首先引入了一种改进的双轮廓算法，该算法将网格轮廓缝合到输入组件上，同时保持它们的连通性。然后，我们展示了如何变形重建的网格，以尊重边界几何形状并保留尖锐的特征线，必要时平滑地混合它们。因此，我们重建的表面是光滑的，并且传播了输入的特征线。我们展示了各种各样的输入形状，我们的方法是可扩展到大的输入复杂性和结果优越的网格质量相比，现有的技术。CCS概念•计算方法→形状建模;网格模型;网格几何模型;

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Proceedings. Pacific Conference on Computer Graphics and Applications

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