A Flexible Technique for Accurate Omnidirectional Camera Calibration and Structure from Motion

Fourth IEEE International Conference on Computer Vision Systems (ICVS'06) Pub Date : 2006-01-04 DOI:10.1109/ICVS.2006.3

D. Scaramuzza, Agostino Martinelli, R. Siegwart

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引用次数: 450

Abstract

In this paper, we present a flexible new technique for single viewpoint omnidirectional camera calibration. The proposed method only requires the camera to observe a planar pattern shown at a few different orientations. Either the camera or the planar pattern can be freely moved. No a priori knowledge of the motion is required, nor a specific model of the omnidirectional sensor. The only assumption is that the image projection function can be described by a Taylor series expansion whose coefficients are estimated by solving a two-step least-squares linear minimization problem. To test the proposed technique, we calibrated a panoramic camera having a field of view greater than 200 in the vertical direction, and we obtained very good results. To investigate the accuracy of the calibration, we also used the estimated omni-camera model in a structure from motion experiment. We obtained a 3D metric reconstruction of a scene from two highly distorted omnidirectional images by using image correspondences only. Compared with classical techniques, which rely on a specific parametric model of the omnidirectional camera, the proposed procedure is independent of the sensor, easy to use, and flexible.

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一种灵活的全向摄像机精确标定与运动构造技术

本文提出了一种灵活的单视点全向摄像机标定新技术。所提出的方法只需要相机观察在几个不同方向上显示的平面图案。相机或平面图案都可以自由移动。不需要先验的运动知识，也不需要全向传感器的特定模型。唯一的假设是图像投影函数可以用泰勒级数展开来描述，其系数是通过求解两步最小二乘线性最小化问题来估计的。为了测试所提出的技术，我们校准了一个垂直方向视场大于200的全景相机，并获得了非常好的结果。为了验证标定的准确性，我们还将估计的全相机模型应用于运动结构实验。仅利用图像对应关系，从两幅高度扭曲的全向图像中获得了场景的三维度量重建。与传统的依赖于全向相机特定参数模型的方法相比，该方法不依赖于传感器，使用方便，灵活。

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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Fourth IEEE International Conference on Computer Vision Systems (ICVS'06)

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