Sliding effects often occur along tissue/organ boundaries. However, most conventional registration techniques either use smooth parametric bases or apply homogeneous smoothness regularization, and fail to address the sliding issue. In this study, we propose a class of discontinuity-preserving regularizers that fit naturally into optimization-based registration. The proposed regularization encourages smooth deformations in most regions, but preserves large discontinuities supported by the data. Variational techniques are used to derive the descending flows. We discuss general conditions on such discontinuity-preserving regularizers, and their properties based on an anisotropic filtering interpretation. Preliminary tests with 2D CT data show ...
Medical image registration plays an important part in most today’s clinical procedures. Registration...
Nonlinear registration is critical to many aspects of Neuroimaging research. It facilitates averagin...
A common assumption in medical image registration is that the estimation of a globally continuous de...
Sliding effects often occur along tissue/organ boundaries. For instance, it is widely observed that ...
We propose a deformable image registration algorithm that uses anisotropic smoothing for regularizat...
Sliding organs pose challenges in the registration of dynamic medical images because the smoothness ...
The registration of abdominal images is central in the analysis of motion patterns and physiological...
Deformable image registration, a key component of motion correction in medical imaging, needs to be ...
Deformable (2D or 3D) medical image registration is a challenging problem. Existing ap-proaches assu...
Regularized nonrigid medical image registration algorithms usually estimate the deformation by minim...
We present a novel variational framework for image registration with explicit modeling of sliding mo...
Conventional nonrigid registration methods usually treat the region of interest (ROI) as a single de...
The classical accelerated Demons algorithm uses Gaussian smoothing to penalize oscillatory motion in...
Medical image registration is a challenging task involving the estimation of spatial transformations...
Image registration is a powerful tool in medical image analysis and facilitates the clinical routine...
Medical image registration plays an important part in most today’s clinical procedures. Registration...
Nonlinear registration is critical to many aspects of Neuroimaging research. It facilitates averagin...
A common assumption in medical image registration is that the estimation of a globally continuous de...
Sliding effects often occur along tissue/organ boundaries. For instance, it is widely observed that ...
We propose a deformable image registration algorithm that uses anisotropic smoothing for regularizat...
Sliding organs pose challenges in the registration of dynamic medical images because the smoothness ...
The registration of abdominal images is central in the analysis of motion patterns and physiological...
Deformable image registration, a key component of motion correction in medical imaging, needs to be ...
Deformable (2D or 3D) medical image registration is a challenging problem. Existing ap-proaches assu...
Regularized nonrigid medical image registration algorithms usually estimate the deformation by minim...
We present a novel variational framework for image registration with explicit modeling of sliding mo...
Conventional nonrigid registration methods usually treat the region of interest (ROI) as a single de...
The classical accelerated Demons algorithm uses Gaussian smoothing to penalize oscillatory motion in...
Medical image registration is a challenging task involving the estimation of spatial transformations...
Image registration is a powerful tool in medical image analysis and facilitates the clinical routine...
Medical image registration plays an important part in most today’s clinical procedures. Registration...
Nonlinear registration is critical to many aspects of Neuroimaging research. It facilitates averagin...
A common assumption in medical image registration is that the estimation of a globally continuous de...