Extraction of Tubular Structures over an Orientation Domain

Keriven, Renaud; Peyré, Gabriel; Péchaud, Mickaël

Keriven, Renaud; Peyré, Gabriel; Péchaud, Mickaël (2009-06-26T09:04:47Z), Extraction of Tubular Structures over an Orientation Domain, IEEE Computer Society Conference on Computer Vision and Pattern Recognition (CVPR 2009), 20-25 June 2009, Miami, Florida, USA. Proceedings, IEEE, p. 336-342

Type

Communication / Conférence

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http://hal.archives-ouvertes.fr/hal-00365599/en/

Date

2009-06-26

Titre du colloque

IEEE Conference on Computer Vision and Pattern Recognition (CVPR'09)

Date du colloque

2009-06

Ville du colloque

Miami (Floride)

Pays du colloque

États-Unis

Titre de l'ouvrage

IEEE Computer Society Conference on Computer Vision and Pattern Recognition (CVPR 2009), 20-25 June 2009, Miami, Florida, USA. Proceedings

Éditeur

IEEE

Isbn

978-1-4244-3992-8

Pages

336-342

Métadonnées

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Auteur(s)

Keriven, Renaud
Peyré, Gabriel
Péchaud, Mickaël

Résumé (EN)

This paper presents a new method to extract tubular structures from bi-dimensional images. The core of the proposed algorithm is the computation of geodesic curves over a four-dimensional space that includes local orientation and scale. These shortest paths follow closely the centerline of tubular structures, provide an estimation of the radius and can deal robustly with crossings over the image plane. Numerical experiments on a database of synthetic and natural images show the superiority of the proposed approach with respect to several method based on shortest paths extractions.

Mots-clés

geodesics; networks; fast marching; medical imaging; vessels; Centerlines