Title :
Projective reconstruction of seven 3D points from two uncalibrated images
Author :
Wang, Yuanbin ; Zhang, Bin ; Hou, Fenghua
Author_Institution :
Sch. of Inf. Sci. & Eng., Northeastern Univ., Shenyang, China
Abstract :
The recovery of the geometric structure of a 3D point set from its images is fundamental in computer vision. Among other projective reconstruction methods, the direct derivation of projective invariants from uncalibrated images is attracting. There are many forms of projective invariants. For a set of seven 3D points in general position, its geometric structure can be characterized by representing other three points as linear combinations of four reference points. Then the cross ratios of the coefficients of these representations are projective invariant. This paper presents an algorithm for computing these unknown cross ratios from known point correspondences from two images. First, a system of three quadratic equations in three unknowns is derived. After solving the three quadratic equations, a set of six independent projective invariants are derived by solving three systems of linear equations.
Keywords :
computer vision; geometry; image representation; image sequences; 3D points; computer vision; cross ratios; direct derivation; geometric structure; linear combinations; linear equations; projective invariants; projective reconstruction; quadratic equations; reference points; uncalibrated images; Cameras; Computer vision; Equations; Image reconstruction; Information geometry; Information science; Layout; Motion estimation; Motion measurement; Pattern matching; computer vision; factorization method; invariant; projective structure and motion;
Conference_Titel :
Future Computer and Communication (ICFCC), 2010 2nd International Conference on
Conference_Location :
Wuhan
Print_ISBN :
978-1-4244-5821-9
DOI :
10.1109/ICFCC.2010.5497705
