Adaptive and High-Precision Isosurface Meshes from CT Data

IF 2.6 3区 材料科学 Q2 MATERIALS SCIENCE, CHARACTERIZATION & TESTING Journal of Nondestructive Evaluation Pub Date : 2024-07-16 DOI:10.1007/s10921-024-01102-8
Lin Xue, Jialong Xu, Kai Ma, Zhaoxiang Li, Jingtao Wang
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Abstract

This paper proposes a method for obtaining adaptive and high-precision surface meshes directly from Industrial computed tomography (ICT) projection data. Firstly, an adaptive volume octree is recursively constructed from top to bottom using a two-stage geometric error metric function. The CT values and gradient values at the nodes are computed using the Feldkamp–Davis–Kress (FDK) reconstruction algorithm and its derivatives, achieving sub-voxel precision. Next, feature vertices are calculated based on Quadratic error functions (QEFs), and a dual mesh is constructed. Finally, Hermite interpolation is used to determine the iso-surface vertices, and the Convex Contouring lookup table is employed to accurately extract the iso-surface contours, resulting in high-precision and crack-free surface meshes. Experimental results show that the surface meshes generated by the proposed method exhibit superior dimensional accuracy, form and position accuracy, and surface model accuracy compared to traditional methods, and the dimensional accuracy has been enhanced by approximately 10–30%.

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从 CT 数据中提取自适应高精度等值面网格
本文提出了一种直接从工业计算机断层扫描(ICT)投影数据获取自适应高精度曲面网格的方法。首先,利用两阶段几何误差度量函数从上至下递归构建自适应体八叉树。使用 Feldkamp-Davis-Kress (FDK) 重建算法及其导数计算节点处的 CT 值和梯度值,从而达到亚体素精度。然后,根据二次误差函数(QEF)计算特征顶点,并构建对偶网格。最后,使用 Hermite 插值确定等值面顶点,并使用凸轮廓查找表精确提取等值面轮廓,从而得到高精度、无裂纹的曲面网格。实验结果表明,与传统方法相比,该方法生成的曲面网格在尺寸精度、形状和位置精度以及曲面模型精度方面都有很好的表现,尺寸精度提高了约 10%-30%。
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来源期刊
Journal of Nondestructive Evaluation
Journal of Nondestructive Evaluation 工程技术-材料科学:表征与测试
CiteScore
4.90
自引率
7.10%
发文量
67
审稿时长
9 months
期刊介绍: Journal of Nondestructive Evaluation provides a forum for the broad range of scientific and engineering activities involved in developing a quantitative nondestructive evaluation (NDE) capability. This interdisciplinary journal publishes papers on the development of new equipment, analyses, and approaches to nondestructive measurements.
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