We present a new image segmentation technique based on the paradigm of water flow and apply it to medical images. The force field analogy is used to implement the major water flow attributes like water pressure, surface tension and adhesion so that the model achieves topological adaptability and geometrical flexibility. A new snake-like force functional combining edge- and region-based forces is introduced to produce capability for both range and accuracy. The method has been assessed qualitatively and quantitatively, and shows decent detection performance as well as ability to handle noise
Active contours have been extensively used in image processing and computer vision. The existing act...
In this thesis, new methods for the efficient segmentation of images are presented. The proposed met...
Inspired by the motion of a solid surface under liquid pressure, this paper proposes a novel deforma...
We present a new image segmentation technique based on the paradigm of water flow and apply it to me...
A general framework for image segmentation is presented in this paper, based on the paradigm of wate...
Segmenting objects with complex shapes, like segmenting vessels in iridology and detecting roads in ...
A new general framework for shape extraction is presented, based on the paradigm of water flow. The ...
Previous vessel segmentation methods mainly concentrate on the general structure, and often ignore t...
A novel scheme of external force for detecting the object boundary of medical image based on Snakes ...
Active contours, or snakes, have been widely used for image segmentation purposes. However, high noi...
Medical Image segmentation deals with segmentation of tumor in CT and MR images for improved quality...
Abstract: In this study, we discover some deficiencies of GVF and GGVF Snake such as it can not capt...
A novel deformable model for image segmentation and shape recovery is presented. The model is inspir...
This thesis investigates the feasibility of using fluid flow as a deformable model for segmenting ve...
A physics-based medical image segmentation method is developed. Specifically, the image greyscale in...
Active contours have been extensively used in image processing and computer vision. The existing act...
In this thesis, new methods for the efficient segmentation of images are presented. The proposed met...
Inspired by the motion of a solid surface under liquid pressure, this paper proposes a novel deforma...
We present a new image segmentation technique based on the paradigm of water flow and apply it to me...
A general framework for image segmentation is presented in this paper, based on the paradigm of wate...
Segmenting objects with complex shapes, like segmenting vessels in iridology and detecting roads in ...
A new general framework for shape extraction is presented, based on the paradigm of water flow. The ...
Previous vessel segmentation methods mainly concentrate on the general structure, and often ignore t...
A novel scheme of external force for detecting the object boundary of medical image based on Snakes ...
Active contours, or snakes, have been widely used for image segmentation purposes. However, high noi...
Medical Image segmentation deals with segmentation of tumor in CT and MR images for improved quality...
Abstract: In this study, we discover some deficiencies of GVF and GGVF Snake such as it can not capt...
A novel deformable model for image segmentation and shape recovery is presented. The model is inspir...
This thesis investigates the feasibility of using fluid flow as a deformable model for segmenting ve...
A physics-based medical image segmentation method is developed. Specifically, the image greyscale in...
Active contours have been extensively used in image processing and computer vision. The existing act...
In this thesis, new methods for the efficient segmentation of images are presented. The proposed met...
Inspired by the motion of a solid surface under liquid pressure, this paper proposes a novel deforma...