Intelligent mesh scissoring using 3D snakes

12th Pacific Conference on Computer Graphics and Applications, 2004. PG 2004. Proceedings. Pub Date : 2004-10-06 DOI:10.1109/PCCGA.2004.1348358

Yunjin Lee, Seungyong Lee, Ariel Shamir, D. Cohen-Or, H. Seidel

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引用次数: 97

Abstract

Mesh partitioning and parts extraction have become key ingredients for many mesh manipulation applications both manual and automatic. In this paper, we present an intelligent scissoring operator for meshes which supports both automatic segmentation and manual cutting. Instead of segmenting the mesh by clustering, our approach concentrates on finding and defining the contours for cutting. This approach is based on the minima rule, which states that human perception usually divides a surface into parts along the contours of concave discontinuity of the tangent plane. The technique uses feature extraction to find such candidate feature contours. Subsequently, such a contour can be selected either automatically or manually, or the user may draw a 2D line to start the scissoring process. The given open contour is completed to form a loop around a specific part of the mesh, and this loop is used as the initial position of a 3D geometric snake. The snake moves by relaxation until it settles to define the final scissoring position. This process uses several fundamental geometric mesh attributes, such as curvature and centricity, and enables both automatic segmentation and an easy-to-use intelligent-scissoring operator.

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智能网格剪切使用3D蛇

网格划分和部件提取已成为许多手动和自动网格操作应用的关键要素。本文提出了一种既支持自动分割又支持人工切割的智能网格切割算子。我们的方法不是通过聚类来分割网格，而是专注于寻找和定义用于切割的轮廓。该方法基于最小规则，即人类感知通常沿着切平面的凹不连续轮廓将表面分成部分。该技术使用特征提取来寻找候选特征轮廓。随后，可以自动或手动选择该轮廓，或者用户可以绘制2D线开始剪切过程。完成给定的开放轮廓，在网格的特定部分周围形成一个环路，并将该环路用作三维几何蛇的初始位置。蛇通过放松来移动，直到它确定了最终的剪切位置。该过程使用了几个基本的几何网格属性，如曲率和中心性，并实现了自动分割和易于使用的智能剪切算子。

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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12th Pacific Conference on Computer Graphics and Applications, 2004. PG 2004. Proceedings.

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