Active contours constitute a computationally attractive framework for image segmentation. In this paper, we describe a fully parametric design that relies on B-spline bases and is specified by control points on the image. Our technique yields successful segmentation results even for challenging datasets where object contours are not well-defined. We can achieve this because our parametric approach uses few parameters and allows us to constrain the topology of the curve. We provide the details for an efficient implementation and discuss different design alternatives. This work comes with a companion software that gives the end user full control over the snakes. We demonstrate the features of our software which includes an interactive interfa...
We propose a novel active contour for the analysis of filament-like structures and boundaries—featur...
The objective of image segmentation is to give a practical representation of object shapes. Filterin...
Traditional snakes suffer from slow convergence speed (many control points) and difficult to adjust ...
Active contours constitute a computationally attractive framework for image segmentation. In this pa...
We present a new fast active-contour model (a.k.a. snake) for image segmentation in 3D microscopy. W...
We construct parametric active contours (snakes) for outlining cells in histology images. These snak...
We present a new exponential B-spline basis that enables the construction of active contours for the...
We present a new fast active contour for images in 3D microscopy. We introduce a fully parametric de...
We present a new fast active contour for images in 3D microscopy. We introduce a fully parametric de...
Present spline-tting methods used in computer vision do not fully address the main issues of develop...
We present a novel formulation for B-spline snakes that can be used as a tool for fast and intuitive...
This paper presents a new segmentation algorithm by fitting active contour models (or snakes) to obj...
International audienceA new formulation of active contours based on explicit functions has been rece...
International audienceWe investigate a novel, parallel implementation of active contours for image s...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
We propose a novel active contour for the analysis of filament-like structures and boundaries—featur...
The objective of image segmentation is to give a practical representation of object shapes. Filterin...
Traditional snakes suffer from slow convergence speed (many control points) and difficult to adjust ...
Active contours constitute a computationally attractive framework for image segmentation. In this pa...
We present a new fast active-contour model (a.k.a. snake) for image segmentation in 3D microscopy. W...
We construct parametric active contours (snakes) for outlining cells in histology images. These snak...
We present a new exponential B-spline basis that enables the construction of active contours for the...
We present a new fast active contour for images in 3D microscopy. We introduce a fully parametric de...
We present a new fast active contour for images in 3D microscopy. We introduce a fully parametric de...
Present spline-tting methods used in computer vision do not fully address the main issues of develop...
We present a novel formulation for B-spline snakes that can be used as a tool for fast and intuitive...
This paper presents a new segmentation algorithm by fitting active contour models (or snakes) to obj...
International audienceA new formulation of active contours based on explicit functions has been rece...
International audienceWe investigate a novel, parallel implementation of active contours for image s...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
We propose a novel active contour for the analysis of filament-like structures and boundaries—featur...
The objective of image segmentation is to give a practical representation of object shapes. Filterin...
Traditional snakes suffer from slow convergence speed (many control points) and difficult to adjust ...