Image segmentation via functionals based on boundary functions

Author

Hewer, G. ; Kenney, C. ; Manjunath, B.S.

Author_Institution

Naval Air Warfare Center, China Lake, CA, USA

Volume

1

fYear

1996

fDate

16-19 Sep 1996

Firstpage

813

Abstract

A general variational framework for image approximation and segmentation is introduced in which the boundary function has a simple explicit form in terms of the approximation function. At the same time, this variational framework is general enough to include the most commonly used objective functions. Since the optimal boundary function, that minimizes the associated objective functional for a given approximation function, can be found explicitly, the objective functional can be expressed in a reduced form that depends only on the approximating function. From this a partial differential equation descent method, aimed at minimizing the objective functional, is derived. The method is fast and produces excellent results as illustrated by a number of real and synthetic image problems

Keywords

approximation theory; functional analysis; functional equations; image segmentation; partial differential equations; variational techniques; approximation function; boundary function; boundary functions; general variational framework; image approximation; image segmentation; objective functional; optimal boundary function; partial differential equation descent method; real images; synthetic images; Gold; Image motion analysis; Image processing; Image reconstruction; Image segmentation; Integral equations; Laplace equations; Least squares approximation; Stereo image processing; Stochastic processes;

fLanguage

English

Publisher

ieee

Conference_Titel

Image Processing, 1996. Proceedings., International Conference on

Conference_Location

Lausanne

Print_ISBN

0-7803-3259-8

Type

conf

DOI

10.1109/ICIP.1996.559623

Filename

559623