Title :
Globally optimal regions and boundaries as minimum ratio weight cycles
Author :
Jermyn, Ian H. ; Ishikawa, Hiroshi
Author_Institution :
INRIA, Sophia Antipolis, France
fDate :
10/1/2001 12:00:00 AM
Abstract :
We describe a new form of energy functional for the modeling and identification of regions in images. The energy is defined on the space of boundaries in the image domain and can incorporate very general combinations of modeling information both from the boundary (intensity gradients, etc.) and from the interior of the region (texture, homogeneity, etc.). We describe two polynomial-time digraph algorithms for finding the global minima of this energy. One of the algorithms is completely general, minimizing the functional for any choice of modeling information. It runs in a few seconds on a 256×256 image. The other algorithm applies to a subclass of functionals, but has the advantage of being extremely parallelizable. Neither algorithm requires initialization
Keywords :
computational complexity; directed graphs; edge detection; minimisation; 256 pixel; 65536 pixel; energy functional; global minima; globally optimal boundaries; globally optimal regions; image region identification; image region modeling; minimization; minimum ratio weight cycles; polynomial-time digraph algorithms; Active contours; Humans; Image recognition; Image segmentation; Mathematical model; Optimization methods; Polynomials; Tracking; Visual system;
Journal_Title :
Pattern Analysis and Machine Intelligence, IEEE Transactions on
