Depth Sensing Using Geometrically Constrained Polarization Normals
作者:Achuta Kadambi, Vage Taamazyan, Boxin Shi, Ramesh Raskar
摘要
Analyzing the polarimetric properties of reflected light is a potential source of shape information. However, it is well-known that polarimetric information contains fundamental shape ambiguities, leading to an underconstrained problem of recovering 3D geometry. To address this problem, we use additional geometric information, from coarse depth maps, to constrain the shape information from polarization cues. Our main contribution is a framework that combines surface normals from polarization (hereafter polarization normals) with an aligned depth map. The additional geometric constraints are used to mitigate physics-based artifacts, such as azimuthal ambiguity, refractive distortion and fronto-parallel signal degradation. We believe our work may have practical implications for optical engineering, demonstrating a new option for state-of-the-art 3D reconstruction.
论文关键词:Computational photography, Light transport, Depth sensing, Shape from polarization
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论文官网地址:https://doi.org/10.1007/s11263-017-1025-7