用于特征分类的体积图像表面参数化

Proceedings IEEE International Symposium on Bio-Informatics and Biomedical Engineering Pub Date : 2000-11-08 DOI:10.1109/BIBE.2000.889621

Richard W. I. Yarger, Francis K. H. Quek

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引用次数: 14

摘要

基于曲率的表面特征非常适合用于多模态医学图像配准。这种基于特征的配准技术的准确性取决于特征计算的可靠性。曲率特征的计算需要二阶导数信息，这种信息最好从参数曲面表示中获得。作者提出了一种从体积数据中显式参数化曲面的方法。曲面的提取，没有全局阈值，使用活动轮廓模型。估计每个表面patch的monge基，并用于将patch转换为局部或参数坐标。利用奇异值分解法求解最小二乘，在局部坐标下拟合表面斑块的双三次多项式。作者通过从曲面模型重建曲面并解析计算高斯曲率和平均曲率来验证他们的方法。该模型在分析数据和医学数据上进行了测试。

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Surface parameterization in volumetric images for feature classification

Curvature-based surface features are well suited for use in multimodal medical image registration. The accuracy of such feature-based registration techniques is dependent upon the reliability of the feature computation. The computation of curvature features requires second derivative information that is best obtained from a parametric surface representation. The authors present a method of explicitly parametrizing surfaces from volumetric data. Surfaces are extracted, without a global thresholding, using active contour models. A monge basis for each surface patch is estimated and used to transform the patch into local, or parametric, coordinates. Surface patches are fit to a bicubic polynomial in local coordinates using least squares solved by singular value decomposition. The authors tested their method by reconstructing surfaces from the surface model and analytically computing gaussian and mean curvatures. The model was tested on analytical and medical data.

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Proceedings IEEE International Symposium on Bio-Informatics and Biomedical Engineering

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