基于Snell定律光线追踪的水下三维重建摄像机标定

2018 IEEE/CVF Conference on Computer Vision and Pattern Recognition Workshops (CVPRW) Pub Date : 2018-06-01 DOI:10.1109/CVPRW.2018.00190

Malte Pedersen, S. Bengtson, Rikke Gade, N. Madsen, T. Moeslund

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引用次数: 27

摘要

在研究海洋动物时，准确估计水下物体的三维位置是非常重要的。水下位置三维重建的一个固有问题是存在折射，这使得单一视点的假设无效。本文比较了三种对水下物体进行三维重建的方法:完全依靠空中摄像机标定的方法、在水下进行摄像机标定的方法和基于Snell定律的光线追踪方法。正如预期的那样，空中相机校准显示是最不准确的，因为它没有考虑折射。另一方面，基于水下摄像机标定和基于光线追踪的方法估计的三维位置精度几乎相同。然而，基于光线追踪的方法被认为是有利的，因为它在校准过程中更加灵活，因为它是内在的和外在的相机参数的解耦。

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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Camera Calibration for Underwater 3D Reconstruction Based on Ray Tracing Using Snell’s Law

Accurately estimating the 3D position of underwater objects is of great interest when doing research on marine animals. An inherent problem of 3D reconstruction of underwater positions is the presence of refraction which invalidates the assumption of a single viewpoint. Three ways of performing 3D reconstruction on underwater objects are compared in this work: an approach relying solely on in-air camera calibration, an approach with the camera calibration performed under water and an approach based on ray tracing with Snell's law. As expected, the in-air camera calibration showed to be the most inaccurate as it does not take refraction into account. The precision of the estimated 3D positions based on the underwater camera calibration and the ray tracing based approach were, on the other hand, almost identical. However, the ray tracing based approach is found to be advantageous as it is far more flexible in terms of the calibration procedure due to the decoupling of the intrinsic and extrinsic camera parameters.

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来源期刊

2018 IEEE/CVF Conference on Computer Vision and Pattern Recognition Workshops (CVPRW)

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