Title :
Camera Matrix Calibration Using Circular Control Points and Separate Correction of the Geometric Distortion Field
Author :
Rudakova, Victoria ; Monasse, Pascal
Author_Institution :
LIGM, Univ. Paris-Est, Marne-la-Vallée, France
Abstract :
We achieve a precise camera calibration using circular control points by, first, separation of the lens distortion parameters from other camera parameters and computation of the distortion field in advance by using a calibration harp. Second, in order to compensate for perspective bias, which is prone to occur when using a circled pattern, we incorporate conic affine transformation into the minimization error when estimating the homography, and leave all the other calibration steps as they are used in the literature. Such an error function allows to compensate for the perspective bias. Combined with precise key point detection, the approach is shown to be more stable than current state-of-the-art global calibration method.
Keywords :
calibration; cameras; distortion; photographic lenses; camera matrix calibration; circular control points; conic affine transformation; error function; geometric distortion field; global calibration method; homography estimation; lens distortion parameter separation; minimization error; precise key point detection; separate correction; Calibration; Cameras; Equations; Lenses; Mathematical model; Nonlinear distortion; Transmission line matrix methods; camera calibration; camera intrinsics; conic-based affine transformation; distortion bias; high precision calibration; perspective bias; planar homography;
Conference_Titel :
Computer and Robot Vision (CRV), 2014 Canadian Conference on
Conference_Location :
Montreal, QC
Print_ISBN :
978-1-4799-4338-8
DOI :
10.1109/CRV.2014.34
