We propose a new spatio-temporal elastic registration algorithm for motion reconstruction from a series of images. The specific application is to estimate displacement fields from two-dimensional ultrasound sequences of the heart. The basic idea is to find a spatio-temporal deformation field that effectively compensates for the motion by minimizing a difference with respect to a reference frame. The key feature of our method is the use of a semi-local spatio-temporal parametric model for the deformation using splines, and the reformulation of the registration task as a global optimization problem. The scale of the spline model controls the smoothness of the displacement field. Our algorithm uses a multiresolution optimization strategy to ob...
This paper proposes a new registration method for the in vivo quantification of cardiac deformation ...
We propose a technique formyocardial motion estimation based on image registration using both B-mode...
Registration of multiple 3D ultrasound sectors in order to provide an extended field of view is impo...
We propose a new global registration method for estimating the cardiac displacement field in 2D sequ...
Current ultrasound methods for measuring myocardial strain are often limited to measurements in one ...
This paper presents a new registration algorithm, called Temporal Di eomorphic Free Form Deformation...
International audienceThis paper presents a new registration algorithm, called Temporal Diffeomorphi...
We present a novel method for tracking myocardial motion from volumetric ultrasound data based on no...
International audienceThis paper presents a new diffeomorphic temporal registration algorithm and it...
This paper presents a new registration algorithm, called Temporal Diffeomorphic Free Form Deformatio...
Estimating the cardiac motion from ultrasound (US) images is an ill-posed problem that requires regu...
A method for spatio-temporally smooth and consistent estimation of cardiac motion from MR cine seque...
We present a novel method for tracking myocardial motion in 2D ultrasound sequences based on non-rig...
International audienceThis paper describes an algorithm for motion and deforma- tion quanti cation o...
We extend our static multimodal nonrigid registration to a spatio-temporal (2D+T) co-registration of...
This paper proposes a new registration method for the in vivo quantification of cardiac deformation ...
We propose a technique formyocardial motion estimation based on image registration using both B-mode...
Registration of multiple 3D ultrasound sectors in order to provide an extended field of view is impo...
We propose a new global registration method for estimating the cardiac displacement field in 2D sequ...
Current ultrasound methods for measuring myocardial strain are often limited to measurements in one ...
This paper presents a new registration algorithm, called Temporal Di eomorphic Free Form Deformation...
International audienceThis paper presents a new registration algorithm, called Temporal Diffeomorphi...
We present a novel method for tracking myocardial motion from volumetric ultrasound data based on no...
International audienceThis paper presents a new diffeomorphic temporal registration algorithm and it...
This paper presents a new registration algorithm, called Temporal Diffeomorphic Free Form Deformatio...
Estimating the cardiac motion from ultrasound (US) images is an ill-posed problem that requires regu...
A method for spatio-temporally smooth and consistent estimation of cardiac motion from MR cine seque...
We present a novel method for tracking myocardial motion in 2D ultrasound sequences based on non-rig...
International audienceThis paper describes an algorithm for motion and deforma- tion quanti cation o...
We extend our static multimodal nonrigid registration to a spatio-temporal (2D+T) co-registration of...
This paper proposes a new registration method for the in vivo quantification of cardiac deformation ...
We propose a technique formyocardial motion estimation based on image registration using both B-mode...
Registration of multiple 3D ultrasound sectors in order to provide an extended field of view is impo...