Title :
Camera calibration and relative pose estimation from gravity
Author :
Sturm, Peter E. ; Quan, Long
Author_Institution :
INRIA, France
Abstract :
We examine the potential use of gravity for camera calibration and pose estimation purposes. Concretely, objects being launched or dropped follow trajectories dictated by the law of gravity. We examine if video sequences of such trajectories give us exploitable constraints for estimating the imaging geometry. It is shown that it is possible to estimate the infinite homography and the epipolar geometry between pairs of views from this input, from which we can estimate (some) intrinsic parameters and relative pose. There are less singularities compared to approaches that do not use the information that the observed trajectories follow gravity. In this paper, we sketch the geometric principles of our idea and validate them by numerical simulations
Keywords :
calibration; computational geometry; image sequences; video cameras; video signal processing; camera calibration; epipolar geometry; geometric principles; gravity; imaging geometry estimation; infinite homography; relative pose estimation; singularities; video sequences; Calibration; Cameras; Data mining; Gravity; Image sequences; Information geometry; Numerical simulation; Parameter estimation; Transmission line matrix methods; Video sequences;
Conference_Titel :
Pattern Recognition, 2000. Proceedings. 15th International Conference on
Conference_Location :
Barcelona
Print_ISBN :
0-7695-0750-6
DOI :
10.1109/ICPR.2000.905278
