使用多z缓冲技术的3D采样表面的快速全局配准

Proceedings. International Conference on Recent Advances in 3-D Digital Imaging and Modeling (Cat. No.97TB100134) Pub Date : 1997-05-12 DOI:10.1109/IM.1997.603856

R. Benjemaa, F. Schmitt

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引用次数: 199

摘要

提出了一种对物体上多个重叠的三维表面进行全局配准的新方法。该方法是基于ICP(迭代最近点)算法和在一组优化的z缓冲区中对采样点进行分割。这种多z缓冲区技术提供了一种三维空间划分，大大加快了在重叠表面之间建立点对点对应关系时搜索最近邻居的速度。然后对曲面集进行随机迭代配准。我们已经在真实的采样表面上测试了该技术的实现。它似乎是快速，准确和强大的，特别是在高度弯曲的物体的情况下。

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Fast global registration of 3D sampled surfaces using a multi-z-buffer technique

We present a new method for the global registration of several overlapping 3D surfaces sampled on an object. The method is based on the ICP (iterative closest point) algorithm and on a segmentation of the sampled points in an optimized set of z-buffers. This multi-z-buffer technique provides a 3D space partitioning which greatly accelerates the search of the nearest neighbours in the establishment of the point-to-point correspondence between overlapping surfaces. Then a randomized iterative registration is processed on the surface set. We have tested an implementation of this technique on real sampled surfaces. It appears to be rapid accurate and robust, especially in the case of highly curved objects.

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Proceedings. International Conference on Recent Advances in 3-D Digital Imaging and Modeling (Cat. No.97TB100134)

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