Title :
Active contours without edges
Author :
Chan, Tony F. ; Vese, Luminita A.
Author_Institution :
Dept. of Math., California Univ., Los Angeles, CA, USA
fDate :
2/1/2001 12:00:00 AM
Abstract :
We propose a new model for active contours to detect objects in a given image, based on techniques of curve evolution, Mumford-Shah (1989) functional for segmentation and level sets. Our model can detect objects whose boundaries are not necessarily defined by the gradient. We minimize an energy which can be seen as a particular case of the minimal partition problem. In the level set formulation, the problem becomes a “mean-curvature flow”-like evolving the active contour, which will stop on the desired boundary. However, the stopping term does not depend on the gradient of the image, as in the classical active contour models, but is instead related to a particular segmentation of the image. We give a numerical algorithm using finite differences. Finally, we present various experimental results and in particular some examples for which the classical snakes methods based on the gradient are not applicable. Also, the initial curve can be anywhere in the image, and interior contours are automatically detected
Keywords :
finite difference methods; functional equations; image segmentation; object detection; Mumford-Shah functional; active contours; curve evolution; experimental results; finite differences; image segmentation; initial curve; level sets; mean-curvature flow; minimal partition problem; numerical algorithm; object detection; stopping term; Active contours; Finite difference methods; Helium; Image edge detection; Image segmentation; Level set; Mathematics; Object detection; Partial differential equations; Two-term control;
Journal_Title :
Image Processing, IEEE Transactions on
