Skeleton-based Generalized Cylinder Deformation under the Relative Curvature Condition

Proceedings. Pacific Conference on Computer Graphics and Applications Pub Date : 2018-10-08 DOI:10.2312/PG.20181275

Ruibin Ma, Qingyu Zhao, Rui Wang, J. Damon, J. Rosenman, S. Pizer

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引用次数: 1

Abstract

Deformation of a generalized cylinder with a parameterized shape change of its centerline is a non-trivial task when the surface is represented as a high-resolution triangle mesh, particularly when self-intersection and local distortion are to be avoided. We introduce a deformation approach that satisfies these properties based on the skeleton (densely sampled centerline and cross sections) of a generalized cylinder. Our approach uses the relative curvature condition to extract a reasonable centerline for a generalized cylinder whose orthogonal cross sections will not intersect. Given the desired centerline shape as a parametric curve, the displacements on the cross sections are determined while controlling for twisting effects, and under this constraint a vertex-wise displacement field is calculated by minimizing a quadratic surface bending energy. The method is tested on complicated generalized cylindrical objects. In particular, we discuss one application of the method for human colon (large intestine) visualization.

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相对曲率条件下基于骨架的广义圆柱体变形

当以高分辨率三角形网格表示曲面时，中心线参数化形状变化的广义圆柱变形是一项非常重要的任务，特别是在避免自交和局部变形的情况下。我们介绍了一种基于广义圆柱体骨架(密集采样的中心线和横截面)满足这些属性的变形方法。我们的方法利用相对曲率条件，为一个正交截面不相交的广义圆柱体提取一个合理的中心线。给定所需的中心线形状作为参数曲线，在控制扭转效应的同时确定截面上的位移，并在此约束下通过最小化二次曲面弯曲能量来计算顶点方向的位移场。该方法在复杂的广义圆柱形物体上进行了试验。我们特别讨论了该方法在人类结肠(大肠)可视化中的一个应用。

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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Proceedings. Pacific Conference on Computer Graphics and Applications

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