Stereo calibration from rigid motions

Author

Horaud, Radu ; Csurka, Gabriella ; Demirdijian, David

Author_Institution

GRAVIR, CNRS, Mont Saint Aignan, France

Volume

22

Issue

12

fYear

2000

fDate

12/1/2000 12:00:00 AM

Firstpage

1446

Lastpage

1452

Abstract

We describe a method for calibrating a stereo pair of cameras using general or planar motions. The method consists of upgrading a 3D projective representation to affine and to Euclidean without any knowledge, neither about the motion parameters nor about the 3D layout. We investigate the algebraic properties relating projective representation to the plane at infinity and to the intrinsic camera parameters when the camera pair is considered as a moving rigid body. We show that all the computations can be carried out using standard linear resolutions techniques. An error analysis reveals the relative importance of the various steps of the calibration process: projective-to-affine and affine-to-metric upgrades. Extensive experiments performed with calibrated and natural data confirm the error analysis as well as the sensitivity study performed with simulated data

Keywords

calibration; computational geometry; computer vision; error analysis; image reconstruction; stereo image processing; 3D projective representation; camera calibration; epipolar geometry; error analysis; planar motions; projective reconstruction; stereo cameras; stereo vision; Analytical models; Calibration; Cameras; Computational modeling; Error analysis; Geometry; H infinity control; Image reconstruction; Nonlinear equations; Stereo vision;

fLanguage

English

Journal_Title

Pattern Analysis and Machine Intelligence, IEEE Transactions on

Publisher

ieee

ISSN

0162-8828

Type

jour

DOI

10.1109/34.895977

Filename

895977