Title :
Noising versus Smoothing for Vertex Identification in Unknown Shapes
Author :
Raftopoulos, Konstantinos A. ; Ferecatu, Marin
Author_Institution :
Centre d´Etudes et De Rech. en Inf. et Commun.(CEDRIC), Conservatoire Nat. des Arts et Metiers (CNAM), Paris, France
Abstract :
A method for identifying shape features of local nature on the shape´s boundary, in a way that is facilitated by the presence of noise is presented. The boundary is seen as a real function. A study of a certain distance function reveals, almost counter-intuitively, that vertices can be defined and localized better in the presence of noise, thus the concept of noising, as opposed to smoothing, is conceived and presented. The method works on both smooth and noisy shapes, the presence of noise having an effect of improving on the results of the smoothed version. Experiments with noise and a comparison to state of the art validate the method.
Keywords :
image representation; object recognition; shape recognition; smoothing methods; distance function; noisy shapes; object recognition; shape features identification; shape representation; smooth shapes; unknown shapes; vertex identification; Equations; Feature extraction; Noise; Noise measurement; Reactive power; Shape; Smoothing methods; Noise Resistance; Noising; Object Recognition; Shape; Shape Representation; Vertex; Vertex Localization;
Conference_Titel :
Computer Vision and Pattern Recognition (CVPR), 2014 IEEE Conference on
Conference_Location :
Columbus, OH
DOI :
10.1109/CVPR.2014.530
