2,240 research outputs found
Superpixel segmentation based on anisotropic edge strength
Superpixel segmentation can benefit from the use of an appropriate method to measure edge strength. In this paper, we present such a method based on the first derivative of anisotropic Gaussian kernels. The kernels can capture the position, direction, prominence, and scale of the edge to be detected. We incorporate the anisotropic edge strength into the distance measure between neighboring superpixels, thereby improving the performance of an existing graph-based superpixel segmentation method. Experimental results validate the superiority of our method in generating superpixels over the competing methods. It is also illustrated that the proposed superpixel segmentation method can facilitate subsequent saliency detection
Vessel enhancing diffusion: a scale space representation of vessel
A method is proposed to enhance vascular structures within the framework
of scale space theory. We combine a smooth vessel filter which is based on
a geometrical analysis of the Hessian's eigensystem, with a non-linear
anisotropic diffusion scheme. The amount and orientation of diffusion
depend on the local vessel likeliness. Vessel enhancing diffusion (VED) is
applied to patient and phantom data and compared to linear, regularized
Perona-Malik, edge and coherence enhancing diffusion. The method performs
better than most of the existing techniques in visualizing vessels with
varying radii and in enhancing vessel appearance. A diameter study on
phantom data shows that VED least affects the accuracy of diameter
measurements. It is shown that using VED as a preprocessing step improves
level set based segmentation of the cerebral vasculature, in particular
segmentation of the smaller vessels of the vasculature
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