Title :
Affine invariant edge completion with affine geodesics
Author :
Handzel, Amir A. ; Flash, Tamar
Author_Institution :
Fac. of Math. & Comput. Sci., Weizmann Inst. of Sci., Rehovot, Israel
Abstract :
Edge completion is the interpolation of gaps between edge segments which are extracted from an image. We provide a new analytic solution to this problem within equi-affine plane geometry which is the natural framework for the interpolation of pairs of line segments. The desired curves are the geodesics of equi-affine plane geometry, namely parabolic arcs, which generalize the connection of points by straight lines in Euclidean geometry. Whereas most common methods of edge completion are invariant only under the group of Euclidean motions, SE(2), this solution has the advantage of being invariant under the larger group of equi-affine transformations, SA(2), that is more relevant to computer vision. In addition to these geometric qualities, the parabola is a simple algebraic curve which renders it computationally attractive, especially in comparison to the popular elastica curves
Keywords :
computational geometry; computer vision; differential geometry; edge detection; feature extraction; interpolation; Euclidean geometry; affine geodesics; computer vision; edge completion; edge segment extraction; equi-affine plane geometry; gap interpolation; line segments; parabola; parabolic arcs; Computer science; Computer vision; Geometry; Image analysis; Image edge detection; Image segmentation; Interpolation; Mathematics; Rendering (computer graphics); Stochastic processes;
Conference_Titel :
Variational and Level Set Methods in Computer Vision, 2001. Proceedings. IEEE Workshop on
Conference_Location :
Vancouver, BC
Print_ISBN :
0-7695-1278-X
DOI :
10.1109/VLSM.2001.938887
