McGrids：用于等值面提取的蒙特卡罗驱动自适应网格

arXiv - CS - Graphics Pub Date : 2024-08-25 DOI:arxiv-2409.06710

Daxuan Renınst, Hezi Shiınst, Jianmin Zheng, Jianfei Cai

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引用次数: 0

摘要

从隐式场中提取等值面是计算机视觉和图形学各种应用中的一个基本过程。在处理具有复杂几何细节的几何形状时，许多现有算法都面临计算成本高、内存占用大的问题。本文提出了一种提高等值面提取效率的新方法--McGrids，其主要思想是为等值面提取构建自适应网格，而不是像现有技术那样使用简单的均匀网格。具体来说，我们将构建自适应网格的问题表述为一个概率抽样问题，然后通过蒙特卡罗过程来解决。我们通过大量实验证明了 McGrids 的能力，这些实验既包括从曲面剪影中计算出的分析 SDF，也包括从真实多视角图像中学习到的隐式场。实验结果表明，我们的 McGrids 可以大大减少隐式场查询的次数，从而显著减少内存，同时生成具有丰富几何细节的高质量网格。

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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McGrids: Monte Carlo-Driven Adaptive Grids for Iso-Surface Extraction

Iso-surface extraction from an implicit field is a fundamental process in various applications of computer vision and graphics. When dealing with geometric shapes with complicated geometric details, many existing algorithms suffer from high computational costs and memory usage. This paper proposes McGrids, a novel approach to improve the efficiency of iso-surface extraction. The key idea is to construct adaptive grids for iso-surface extraction rather than using a simple uniform grid as prior art does. Specifically, we formulate the problem of constructing adaptive grids as a probability sampling problem, which is then solved by Monte Carlo process. We demonstrate McGrids' capability with extensive experiments from both analytical SDFs computed from surface meshes and learned implicit fields from real multiview images. The experiment results show that our McGrids can significantly reduce the number of implicit field queries, resulting in significant memory reduction, while producing high-quality meshes with rich geometric details.

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arXiv - CS - Graphics

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