Catadioptric camera calibration using geometric invariants

Xianghua Ying, Zhanyi Hu
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引用次数: 172

Abstract

Central catadioptric cameras are imaging devices that use mirrors to enhance the field of view while preserving a single effective viewpoint. In this paper, we propose a novel method for the calibration of central catadioptric cameras using geometric invariants. Lines in space are projected into conics in the catadioptric image plane as well as spheres in space. We proved that the projection of a line can provide three invariants whereas the projection of a sphere can provide two. From these invariants, constraint equations for the intrinsic parameters of catadioptric camera are derived. Therefore, there are two variants of this novel method. The first one uses the projections of lines and the second one uses the projections of spheres. In general, the projections of two lines or three spheres are sufficient to achieve the catadioptric camera calibration. One important observation in this paper is that the method based on the projections of spheres is more robust and has higher accuracy than that using the projections of lines. The performances of our method are demonstrated by the results of simulations and experiments with real images.
反射相机几何不变量标定
中央反射相机是一种成像设备,它使用反射镜来增强视野,同时保持单一有效的视点。本文提出了一种利用几何不变量标定中央反射相机的新方法。空间中的直线在反射成像平面上被投影成圆锥,在空间中被投影成球体。我们证明了直线的投影可以提供三个不变量,而球面的投影可以提供两个不变量。从这些不变量出发,导出了反射相机固有参数的约束方程。因此,这种新方法有两种变体。第一个用直线的投影,第二个用球体的投影。一般情况下,两条直线或三个球面的投影就足以实现反射相机的标定。本文的一个重要观察结果是,基于球面投影的方法比基于直线投影的方法具有更高的鲁棒性和精度。仿真和真实图像的实验结果证明了该方法的有效性。
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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