Abstract | ||
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Deformable active contour (snake) models are efficient tools for object boundary detection. Existing alterations of the traditional gradient vector flow (GVF) model have reduced sensitivity to noise, parameters and initial location, but high curvatures and noisy, weakly contrasted boundaries cause difficulties for them. This paper introduces two Harris based parametric snake models, Harris based gradient vector flow (HGVF) and Harris based vector field convolution (HVFC), which use the curvature-sensitive Harris matrix to achieve a balanced, twin-functionality (corner and edge) feature map. To avoid initial location sensitivity, starting contour is defined as the convex hull of the most attractive points of the map. In the experimental part we compared our methods to the traditional external energy-inspired state-of-the-art GVF and VFC; the recently published parametric decoupled active contour (DAC) and the non-parametric Chan-Vese (ACWE) techniques. Results show that our methods outperform the classical approaches, when tested on images with high curvature, noisy boundaries. |
Year | DOI | Venue |
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2012 | 10.1016/j.patrec.2012.01.018 | Pattern Recognition Letters |
Keywords | Field | DocType |
initial location,traditional gradient vector flow,curvature-sensitive harris matrix,high curvature,feature map,gradient vector flow,vector field convolution,parametric decoupled active contour,deformable active contour,active contour external force,external energy-inspired state-of-the-art gvf,image segmentation | Active contour model,Harris matrix,Computer vision,Curvature,Vector field convolution,Convex hull,Image segmentation,Parametric statistics,Vector flow,Artificial intelligence,Mathematics | Journal |
Volume | Issue | ISSN |
33 | 9 | 0167-8655 |
Citations | PageRank | References |
19 | 0.72 | 26 |
Authors | ||
2 |
Name | Order | Citations | PageRank |
---|---|---|---|
Andrea Kovács | 1 | 37 | 3.56 |
Sziranyi, T. | 2 | 395 | 44.76 |