Quadratic surface preserving parameterization of unorganized point data

IF 1.3 4区计算机科学 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING Computer Aided Geometric Design Pub Date : 2024-04-03 DOI:10.1016/j.cagd.2024.102287

Dany Ríos, Felix Scholz, Bert Jüttler

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Abstract

Finding parameterizations of spatial point data is a fundamental step for surface reconstruction in Computer Aided Geometric Design. Especially the case of unstructured point clouds is challenging and not widely studied. In this work, we show how to parameterize a point cloud by using barycentric coordinates in the parameter domain, with the aim of reproducing the parameterizations provided by quadratic triangular Bézier surfaces. To this end, we train an artificial neural network that predicts suitable barycentric parameters for a fixed number of data points. In a subsequent step we improve the parameterization using non-linear optimization methods. We then use a number of local parameterizations to obtain a global parameterization using a new overdetermined barycentric parameterization approach. We study the behavior of our method numerically in the zero-residual case (i.e., data sampled from quadratic polynomial surfaces) and in the non-zero residual case and observe an improvement of the accuracy in comparison to standard methods. We also compare different approaches for non-linear surface fitting such as tangent distance minimization, squared distance minimization and the Levenberg Marquardt algorithm.

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无组织点数据的二次曲面保存参数化

寻找空间点数据的参数化是计算机辅助几何设计中曲面重建的基本步骤。特别是非结构化点云的情况极具挑战性，而且尚未得到广泛研究。在这项工作中，我们展示了如何在参数域中使用巴里中心坐标对点云进行参数化，目的是重现二次三角形贝塞尔曲面提供的参数化。为此，我们训练了一个人工神经网络，该网络可预测固定数量数据点的合适偏心坐标参数。在随后的步骤中，我们使用非线性优化方法改进参数化。然后，我们使用一些局部参数化方法，通过一种新的超确定重心参数化方法获得全局参数化。我们对我们的方法在零残差情况（即从二次多项式曲面采样的数据）和非零残差情况下的行为进行了数值研究，并观察到与标准方法相比，精度有所提高。我们还比较了不同的非线性曲面拟合方法，如切线距离最小化、平方距离最小化和 Levenberg Marquardt 算法。

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来源期刊

Computer Aided Geometric Design 工程技术-计算机：软件工程

CiteScore

3.50

自引率

13.30%

发文量

审稿时长

60 days

期刊介绍： The journal Computer Aided Geometric Design is for researchers, scholars, and software developers dealing with mathematical and computational methods for the description of geometric objects as they arise in areas ranging from CAD/CAM to robotics and scientific visualization. The journal publishes original research papers, survey papers and with quick editorial decisions short communications of at most 3 pages. The primary objects of interest are curves, surfaces, and volumes such as splines (NURBS), meshes, subdivision surfaces as well as algorithms to generate, analyze, and manipulate them. This journal will report on new developments in CAGD and its applications, including but not restricted to the following: -Mathematical and Geometric Foundations- Curve, Surface, and Volume generation- CAGD applications in Numerical Analysis, Computational Geometry, Computer Graphics, or Computer Vision- Industrial, medical, and scientific applications. The aim is to collect and disseminate information on computer aided design in one journal. To provide the user community with methods and algorithms for representing curves and surfaces. To illustrate computer aided geometric design by means of interesting applications. To combine curve and surface methods with computer graphics. To explain scientific phenomena by means of computer graphics. To concentrate on the interaction between theory and application. To expose unsolved problems of the practice. To develop new methods in computer aided geometry.

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