基于平面网格参数化的多视点测光立体

Jaesik Park, Sudipta N. Sinha, Y. Matsushita, Yu-Wing Tai, In-So Kweon
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引用次数: 49

摘要

我们提出了一种使用未校准的多视点光度立体图像进行精确三维形状重建的方法。首先利用平面网格参数化技术对多视立体重建的粗网格进行参数化。随后,在网格的二维参数域中执行多视图光度立体,其中来自多幅图像的所有几何和光度线索可以统一处理。与传统方法不同,该方法不需要合并依赖于视图的表面法线贴图。我们的主要贡献是一种新的基于光度立体的网格细化技术,该技术可以通过直接估计二维参数域中的位移纹理映射,有效地重建具有极精细几何细节的网格。我们证明了复杂的表面几何结构可以使用几个具有挑战性的数据集来重建,这些数据集包含具有镜面反射、多重反照率和复杂拓扑结构的表面。
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Multiview Photometric Stereo Using Planar Mesh Parameterization
We propose a method for accurate 3D shape reconstruction using uncalibrated multiview photometric stereo. A coarse mesh reconstructed using multiview stereo is first parameterized using a planar mesh parameterization technique. Subsequently, multiview photometric stereo is performed in the 2D parameter domain of the mesh, where all geometric and photometric cues from multiple images can be treated uniformly. Unlike traditional methods, there is no need for merging view-dependent surface normal maps. Our key contribution is a new photometric stereo based mesh refinement technique that can efficiently reconstruct meshes with extremely fine geometric details by directly estimating a displacement texture map in the 2D parameter domain. We demonstrate that intricate surface geometry can be reconstructed using several challenging datasets containing surfaces with specular reflections, multiple albedos and complex topologies.
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