无需跟踪的交互式3D扫描

XX Brazilian Symposium on Computer Graphics and Image Processing (SIBGRAPI 2007) Pub Date : 2007-10-07 DOI:10.1109/SIBGRAPI.2007.26

Matthew J. Leotta, Austin Vandergon, G. Taubin

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引用次数: 19

摘要

本文使用廉价且容易获得的材料——一对校准的相机和激光线投影仪——实现了无需跟踪的3D激光距离扫描仪。基于图像中激光直线上观察到的所有点在三维激光的同一平面上这一事实，我们引入了平面性约束来进行重建。该激光平面线性参数化了同一激光线的一对图像之间的单应性，并且这种单应性可以从极几何导出的点对应中恢复。多个视图中可见的点可以通过三角剖分重建并投影到该平面上，而只有一个视图中可见的点可以通过射线平面相交恢复。在重建过程中使用平面约束提高了系统的精度，并且使用平面进行重建增加了恢复点的数量。此外，构建了一个交互式扫描环境，其中使用增量重建来提供连续的视觉反馈。与标准三角法相比，该方法具有更高的重建精度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Interactive 3D ScanningWithout Tracking

Using inexpensive and readily available materials-a calibrated pair of cameras and a laser line projector - a 3D laser range scanner which requires no tracking is implemented in this paper. We introduce a planarity constraint for reconstruction, based on the fact that all points observed on a laser line in an image are on the same plane of laser light in 3D. This plane of laser light linearly parametrizes the homography between a pair of images of the same laser line, and this homography can be recovered from point correspondences derived from epipolar geometry. Points visible from multiple views can be reconstructed via triangulation and projected onto this plane, while points visible in only one view can be recovered via ray-plane intersection. The use of the planarity constraint during reconstruction increases the system's accuracy, and using the planes for reconstruction increases the number of points recovered. Additionally, an in teractive scanning environment is constructed, where incremental reconstruction is used to provide continuous visual feedback. Reconstructions with this method are shown to have higher accuracy than standard triangulation.

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XX Brazilian Symposium on Computer Graphics and Image Processing (SIBGRAPI 2007)

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