Non-rigid image registration is widely used in the analysis of brain images to the extent it is provided as a standard tool in common packages such as SPM. However the performance of algorithms in specific applications remains hard to measure. In this paper a detailed comparison of the performance of an affine, B-Spline control-point and viscous fluid registration algorithm in inter-subject brain registration is presented. The comparison makes use of highly detailed expert manual labellings of a range of structures distributed in scale and in location in the brain. The overall performance is B-Spline, fluid, affine (best first) with all algorithms struggling to improve the match of smaller structures. We discuss caveats, evaluation strategi...
PMID: 20813636International audienceIn this paper, we used a nonconservative Lagrangian mechanics ap...
Two-dimensional (2-D)-to-three-dimensional (3-D) registration can improve visualization which may ai...
International audienceWithin the scope of three-dimensional brain imaging and brain functional mappi...
Non-rigid image registration is widely used in the analysis of brain images to the extent it is prov...
All fields of neuroscience that employ brain imaging need to communicate their results with referenc...
In this paper, the results obtained by the registration process of brain image volumes obtained by m...
International audienceAlthough numerous methods to register brains of different individuals have bee...
In this paper, we develop and validate a new Statistically Assisted Fluid Registration Algorithm (SA...
In this paper, we used a non-conservative Lagrangian mechanics approach to formulate a new statistic...
In this paper, we used a nonconservative Lagrangian mechanics approach to formulate a new statistica...
International audienceA number of problems frequently encountered in brain image analysis can be con...
Registration is an important component of medical image analysis and for analysing large amounts of ...
PMID: 20813636International audienceIn this paper, we used a nonconservative Lagrangian mechanics ap...
Two-dimensional (2-D)-to-three-dimensional (3-D) registration can improve visualization which may ai...
International audienceWithin the scope of three-dimensional brain imaging and brain functional mappi...
Non-rigid image registration is widely used in the analysis of brain images to the extent it is prov...
All fields of neuroscience that employ brain imaging need to communicate their results with referenc...
In this paper, the results obtained by the registration process of brain image volumes obtained by m...
International audienceAlthough numerous methods to register brains of different individuals have bee...
In this paper, we develop and validate a new Statistically Assisted Fluid Registration Algorithm (SA...
In this paper, we used a non-conservative Lagrangian mechanics approach to formulate a new statistic...
In this paper, we used a nonconservative Lagrangian mechanics approach to formulate a new statistica...
International audienceA number of problems frequently encountered in brain image analysis can be con...
Registration is an important component of medical image analysis and for analysing large amounts of ...
PMID: 20813636International audienceIn this paper, we used a nonconservative Lagrangian mechanics ap...
Two-dimensional (2-D)-to-three-dimensional (3-D) registration can improve visualization which may ai...
International audienceWithin the scope of three-dimensional brain imaging and brain functional mappi...