Many biomedical applications require the detection of branching structures in images. While several algorithms have been proposed for (semi-)automatic extraction of these structures, branching points usually need specific treatment. We propose a vector field-based approach to identify branching points in images. A vector field is calculated using a novel contrast-independent tensor representation based on local phase. Non-curvilinear structures, including junctions and end points, are detected using directional statistics of the principal orientation as defined by the tensor. Results on synthetic and real biomedical images show the robustness of the algorithm against changes in contrast, and its ability to detect junctions in highly complex...
We present a method for designing steerable wavelets that can detect local centers of symmetry in im...
International audienceWe present an approach to the tree representation of a tubular object network....
Automatic detection of anatomical structures and regions in 3D medical images is important for sever...
Many biomedical applications require detection of curvilinear networks in images, and would benefit ...
Abstract- Many biomedical applications require the detection of infected structures in images. In or...
Many biomedical applications require detection of curvilinear structures in images and would benefit...
This work describes a new framework for automatic ex-traction of 2D branching structures images obta...
We present a method for modelling and estimating branching structures, such as blood vessel bifurcat...
We present a method for modelling and estimating branching structures, such as blood vessel bifurcat...
We present a method for modelling and estimating branching structures, such as blood vessel bifurcat...
Abstract. We describe three modifications to the structure tensor approach to low-level feature extr...
Modern medical imaging techniques enable the acquisition of in vivo high resolution images of the va...
This paper proposes algorithms for the analysis of sets of confocal microscope images of human brain...
textabstractDigital reconstruction of neuronal cell morphology is an important step toward understan...
International audienceWe present a new algorithm which merges discontinuities in 3-D images of tubul...
We present a method for designing steerable wavelets that can detect local centers of symmetry in im...
International audienceWe present an approach to the tree representation of a tubular object network....
Automatic detection of anatomical structures and regions in 3D medical images is important for sever...
Many biomedical applications require detection of curvilinear networks in images, and would benefit ...
Abstract- Many biomedical applications require the detection of infected structures in images. In or...
Many biomedical applications require detection of curvilinear structures in images and would benefit...
This work describes a new framework for automatic ex-traction of 2D branching structures images obta...
We present a method for modelling and estimating branching structures, such as blood vessel bifurcat...
We present a method for modelling and estimating branching structures, such as blood vessel bifurcat...
We present a method for modelling and estimating branching structures, such as blood vessel bifurcat...
Abstract. We describe three modifications to the structure tensor approach to low-level feature extr...
Modern medical imaging techniques enable the acquisition of in vivo high resolution images of the va...
This paper proposes algorithms for the analysis of sets of confocal microscope images of human brain...
textabstractDigital reconstruction of neuronal cell morphology is an important step toward understan...
International audienceWe present a new algorithm which merges discontinuities in 3-D images of tubul...
We present a method for designing steerable wavelets that can detect local centers of symmetry in im...
International audienceWe present an approach to the tree representation of a tubular object network....
Automatic detection of anatomical structures and regions in 3D medical images is important for sever...