Title :
Regularization Preserving Localization of Close Edges
Author :
Laligant, Olivier ; Truchetet, Frédéric ; Mériaudeau, Fabrice
Author_Institution :
Le2i Lab., Univ. of Burgundy, Le Creusot
fDate :
3/1/2007 12:00:00 AM
Abstract :
In this letter, we address the problem of the influence of neighbor edges and their effect on the edge delocalization while extracting a neighbor contour by a derivative approach. The properties to be fulfilled by the regularization operators to minimize or suppress this side effect are deduced, and the best detectors are pointed out. The study is carried out in 1-D for discrete signal. We show that among the derivative filters, one of them can correctly detect our model edges without being influenced by a neighboring transition, whatever their separation distance is and their respective amplitude is. A model of contour and close transitions is presented and used throughout this letter. The noise effect on the edge delocalization is recalled through one of the Canny criteria. Different derivative filters are applied onto synthetic images, and their performances are compared
Keywords :
edge detection; filtering theory; Canny criteria; contour extraction; derivative filters; edge delocalization; edge detection; regularization operator; Additive noise; Detection algorithms; Detectors; Filtering; Filters; Image edge detection; Image sampling; Noise shaping; Shape; Signal to noise ratio; Edge detection; edge localization; edge model; neighbor edge; regularization filter;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2006.884030
