Locally affine (polyaffine) image registration methods capture intersubject non-linear deformations with a low number of parameters, while providing an intuitive interpretation for clinicians. Considering the mandible bone, anatomical shape differences can be found at different scales, e.g. left or right side, teeth, etc. Classically, sequential coarse to fine registration are used to handle multiscale deformations, instead we propose a simultaneous optimization of all scales. To avoid local minima we incorporate a prior on the polyaffine transformations. This kind of groupwise registration approach is natural in a polyaffine context, if we assume one configuration of regions that describes an entire group of images, with varying transforma...
In medical image analysis, geometrical deformations are used to model intersub-ject variability. In ...
Image registration is the process of finding the geometric transformation that, applied to the float...
In this paper, we present a fine and coarse approach for the multiscale registration of 3D medical i...
Locally affine (polyaffine) image registration methods capture intersubject non-linear deformations ...
Locally affine (polyaffine) image registration methods capture intersubject non-linear deformations ...
Abstract. Non-linear image registration is an important tool in many areas of image analysis. For in...
Non-linear image registration is an important tool in many areas of image analysis. For instance, in...
Non-linear image registration is an important tool in many areas of image analysis. For instance, in...
In medical image analysis, geometrical deformations are used to model intersubject variability. In o...
International audienceNon-linear image registration is an important tool in many areas of image anal...
Log-euclideanpolyaffinetransformshaverecentlybeenintro- duced to characterize the local affine behav...
Mandible fractures are classified depending on their location. In clinical practice, locations are g...
Mandible fractures are classified depending on their location. In clinical practice, locations are g...
Abstract. Log-euclidean polyaffine transforms have recently been intro-duced to characterize the loc...
International audienceIntra-subject and inter-subject nonlinear registration based on dense transfor...
In medical image analysis, geometrical deformations are used to model intersub-ject variability. In ...
Image registration is the process of finding the geometric transformation that, applied to the float...
In this paper, we present a fine and coarse approach for the multiscale registration of 3D medical i...
Locally affine (polyaffine) image registration methods capture intersubject non-linear deformations ...
Locally affine (polyaffine) image registration methods capture intersubject non-linear deformations ...
Abstract. Non-linear image registration is an important tool in many areas of image analysis. For in...
Non-linear image registration is an important tool in many areas of image analysis. For instance, in...
Non-linear image registration is an important tool in many areas of image analysis. For instance, in...
In medical image analysis, geometrical deformations are used to model intersubject variability. In o...
International audienceNon-linear image registration is an important tool in many areas of image anal...
Log-euclideanpolyaffinetransformshaverecentlybeenintro- duced to characterize the local affine behav...
Mandible fractures are classified depending on their location. In clinical practice, locations are g...
Mandible fractures are classified depending on their location. In clinical practice, locations are g...
Abstract. Log-euclidean polyaffine transforms have recently been intro-duced to characterize the loc...
International audienceIntra-subject and inter-subject nonlinear registration based on dense transfor...
In medical image analysis, geometrical deformations are used to model intersub-ject variability. In ...
Image registration is the process of finding the geometric transformation that, applied to the float...
In this paper, we present a fine and coarse approach for the multiscale registration of 3D medical i...