基于稀疏数据的三维曲面鲁棒重建的统计方法

Proceedings. 2nd International Symposium on 3D Data Processing, Visualization and Transmission, 2004. 3DPVT 2004. Pub Date : 2004-09-06 DOI:10.1109/TDPVT.2004.1335212

V. Blanz, A. Mehl, T. Vetter, H. Seidel

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引用次数: 196

摘要

关于一类物体的一般信息，如人脸或牙齿，可以帮助解决从稀疏的3D特征点或点的2D投影重建完整表面的病态问题。我们提出了一种使用形状的向量空间表示(3D变形模型)来推断缺失顶点坐标的技术。基于统计方法的正则化通过计算拟合质量和可信性之间的最佳权衡，使系统相对于噪声稳定和鲁棒。我们提出了一种直接的、非迭代的算法来有效地计算这种最优，并提出了一种同时补偿未知刚性变换的方法。该系统在两个不同的领域进行了应用和评估:(1)以交互速率从2D特征点重建未知方向的3D人脸;(2)修复牙齿缺失的表面区域，用于牙科镶嵌体的CAD-CAM生产和其他医疗应用。

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A statistical method for robust 3D surface reconstruction from sparse data

General information about a class of objects, such as human faces or teeth, can help to solve the otherwise ill-posed problem of reconstructing a complete surface from sparse 3D feature points or 2D projections of points. We present a technique that uses a vector space representation of shape (3D morphable model) to infer missing vertex coordinates. Regularization derived from a statistical approach makes the system stable and robust with respect to noise by computing the optimal tradeoff between fitting quality and plausibility. We present a direct, noniterative algorithm to calculate this optimum efficiently, and a method for simultaneously compensating unknown rigid transformations. The system is applied and evaluated in two different fields: (1) reconstruction of 3D faces at unknown orientations from 2D feature points at interactive rates, and (2) restoration of missing surface regions of teeth for CAD-CAM production of dental inlays and other medical applications.

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来源期刊

Proceedings. 2nd International Symposium on 3D Data Processing, Visualization and Transmission, 2004. 3DPVT 2004.

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