Add to ORKGDeformable (2D or 3D) medical image registration is a challenging problem. Existing ap-proaches assume that the underlying deformation is smooth. This smoothness assumption allows for solving the deformable registration at a coarse resolution and interpolate for finer resolutions. However, sliding of organs and breathing motion, exhibit discontinuities. We propose a discrete optimization approach to preserve these discontinuities. Solving continuous deformations using discrete optimization requires a fine distribution of the discrete labels. Coupled with the typical size of medical image datasets, this poses challenges to compute solutions efficiently. In this paper we present a practical, multi-scale formulation. We describe how discontinu...
International audienceIn this paper we propose a novel method based on discrete optimization of high...
dissertationDiffeomorphic models of image deformation are a mainstay of medical image registration d...
Smoothness and continuity assumptions on the deformation field in deformable image registration do n...
International audienceThis review introduces a novel deformable image registration paradigm that exp...
In this report, we present a novel framework to deform mutually a population of n-examples based on ...
Sliding effects often occur along tissue/organ boundaries. However, most conventional registration t...
As a fundamental task in medical image analysis, deformable image registration (DIR) is the process ...
htmlabstractCurrently, two major challenges dominate the field of deformable image registration. The...
International audienceIn this paper, we present a new approach to tackle simultaneously linear and d...
Some of the hardest problems in deformable image registration are problems where large anatomical di...
Common problems in medical image analysis involve surface-based registration. The applications range...
Sliding organs pose challenges in the registration of dynamic medical images because the smoothness ...
Image registration is a powerful tool in medical image analysis and facilitates the clinical routine...
In this paper we present two fine and coarse approaches for the efficient registration of 3D medical...
Non-rigid image registration is an essential tool required for overcoming the inherent local anatomi...
International audienceIn this paper we propose a novel method based on discrete optimization of high...
dissertationDiffeomorphic models of image deformation are a mainstay of medical image registration d...
Smoothness and continuity assumptions on the deformation field in deformable image registration do n...
International audienceThis review introduces a novel deformable image registration paradigm that exp...
In this report, we present a novel framework to deform mutually a population of n-examples based on ...
Sliding effects often occur along tissue/organ boundaries. However, most conventional registration t...
As a fundamental task in medical image analysis, deformable image registration (DIR) is the process ...
htmlabstractCurrently, two major challenges dominate the field of deformable image registration. The...
International audienceIn this paper, we present a new approach to tackle simultaneously linear and d...
Some of the hardest problems in deformable image registration are problems where large anatomical di...
Common problems in medical image analysis involve surface-based registration. The applications range...
Sliding organs pose challenges in the registration of dynamic medical images because the smoothness ...
Image registration is a powerful tool in medical image analysis and facilitates the clinical routine...
In this paper we present two fine and coarse approaches for the efficient registration of 3D medical...
Non-rigid image registration is an essential tool required for overcoming the inherent local anatomi...
International audienceIn this paper we propose a novel method based on discrete optimization of high...
dissertationDiffeomorphic models of image deformation are a mainstay of medical image registration d...
Smoothness and continuity assumptions on the deformation field in deformable image registration do n...