Requirements fora good shape representation lead to descriptors that are object centered and that have the notion of scale. These representations usually take the form of shape skeletons at multiple detail levels. Classical tool for skeleton extraction is the grassfire equation, in which the process is lossless and the equation can be run backwards in order to obtain shape boundary from the shape skeleton. Many complicated strategies have been devised to assign significance to skeletal points in order to arrive at the skeleton scale space; A recent alternative approach is to introduce regularization directly to the skeleton extraction process, by combining diffusion with grassfire. Very recently, techniques: similar in spirit, which combine...
We present a practical algorithm for computing robust multiscale curve and surface skeletons of 3D o...
We propose a sparse representation of 2D planar shape through the composition of warping functions, ...
We introduce a novel skeleton extraction algorithm in binary and gray-scale images, based on the an...
Shape skeletons have been used in computer vision to represent shapes and discover their salient fea...
Skeletons are simplified shape representations with many applications involving image processing, an...
Thinning operations and distance transforms have long been used in extracting skeleton information o...
Computing skeletons of 2D shapes, and medial surface and curve skeletons of 3D shapes, is a challeng...
Computing skeletons of 2D shapes, and medial surface and curve skeletons of 3D shapes, is a challeng...
The skeleton is an important feature in the representation of a shape in image analysis. In this pap...
We present a novel and effective skeletonization algorithm for binary and gray-scale images, based ...
We present a new skeletal representation along with a matching framework to address the deformable s...
International audienceA skeleton is a centered geometric representation of a shape that describes th...
Skeletons are powerful shape descriptors with many applications in shape processing, reconstruction ...
We present a new skeletal representation along with a matching framework to address the deformable s...
We present a practical algorithm for computing robust multiscale curve and surface skeletons of 3D o...
We propose a sparse representation of 2D planar shape through the composition of warping functions, ...
We introduce a novel skeleton extraction algorithm in binary and gray-scale images, based on the an...
Shape skeletons have been used in computer vision to represent shapes and discover their salient fea...
Skeletons are simplified shape representations with many applications involving image processing, an...
Thinning operations and distance transforms have long been used in extracting skeleton information o...
Computing skeletons of 2D shapes, and medial surface and curve skeletons of 3D shapes, is a challeng...
Computing skeletons of 2D shapes, and medial surface and curve skeletons of 3D shapes, is a challeng...
The skeleton is an important feature in the representation of a shape in image analysis. In this pap...
We present a novel and effective skeletonization algorithm for binary and gray-scale images, based ...
We present a new skeletal representation along with a matching framework to address the deformable s...
International audienceA skeleton is a centered geometric representation of a shape that describes th...
Skeletons are powerful shape descriptors with many applications in shape processing, reconstruction ...
We present a new skeletal representation along with a matching framework to address the deformable s...
We present a practical algorithm for computing robust multiscale curve and surface skeletons of 3D o...
We propose a sparse representation of 2D planar shape through the composition of warping functions, ...
We introduce a novel skeleton extraction algorithm in binary and gray-scale images, based on the an...