Title :
Vanishing point detection without any a priori information
Author :
Almansa, Andrés ; Desolneux, Agnès ; Vamech, Sébastien
Author_Institution :
CMLA-ENS Cachan, France
fDate :
4/1/2003 12:00:00 AM
Abstract :
Even though vanishing points in digital images result from parallel lines in the 3D scene, most of the proposed detection algorithms are forced to rely heavily either on additional properties (like orthogonality or coplanarity and equal distance) of the underlying 3D lines, or on knowledge of the camera calibration parameters, in order to avoid spurious responses. In this work, we develop a new detection algorithm that relies on the Helmoltz principle recently proposed for computer vision by Desolneux et al (2001; 2003), both at the line detection and line grouping stages. This leads to a vanishing point detector with a low false alarms rate and a high precision level, which does not rely on any a priori information on the image or calibration parameters, and does not require any parameter tuning.
Keywords :
calibration; computational geometry; computer vision; probability; 3D scene; Helmoltz principle; calibration; camera calibration parameters; computer vision; false alarms; line detection; line grouping; parallel lines; vanishing point detection; Calibration; Computer vision; Detection algorithms; Detectors; Digital cameras; Digital images; H infinity control; Layout; Meeting planning; Parallel processing;
Journal_Title :
Pattern Analysis and Machine Intelligence, IEEE Transactions on
DOI :
10.1109/TPAMI.2003.1190575
