Add to ORKGInternational audienceNon-rigid registration is often used for 3D representations during surgical procedures. It needs to provide good precision in order to guide the surgeon properly. We propose here a method that allows the computation of a local upper bound of the registration confidence over the whole organ volume. Using a bio-mechanical model, we apply tearing forces over the whole organ to compute the upper bound of the degrees of freedom left by the registrations constraints. Confrontation of our method with experimental data shows promising results to estimate the registration confidence. Indeed, the computed maximum error appears to be a real upper bound
In the context of computer assist surgical techniques, a new elastic registration method of 3D meshe...
International audienceImage registration plays a very important role in quantifying cardiac motion f...
International audienceWhile focusing at accurate 3D joint kinematics, this paper explores the proble...
International audienceNon-rigid registration is often used for 3D representations during surgical pr...
. This paper describes a new method of non-rigid registration using the combined power of elastic an...
This paper is concerned with registering three-dimensional wire-frame organ models. This involves fi...
Deformable registration algorithms need in general an appropriate initialization of the volumes that...
Abstract. We propose a new approach for validating deformable image registration algorithms. Since d...
This paper describes two new atlas-based methods of 2D single modality non-rigid registration using ...
International audienceThe nonrigid alignment between a pre-operative biomechanical model and an intr...
International audienceIn this paper we propose a method to address the problem of non-rigid registra...
In this work, we explore the role of image-derived forces in an elastic image registration model, an...
In this paper we describe a new algorithm for nonrigid registration based on an elastically deformab...
Copyright © 2013 Peng Liu et al.This is an open access article distributed under the Creative Common...
Medical images that are to be registered for clinical application often contain both structures that...
In the context of computer assist surgical techniques, a new elastic registration method of 3D meshe...
International audienceImage registration plays a very important role in quantifying cardiac motion f...
International audienceWhile focusing at accurate 3D joint kinematics, this paper explores the proble...
International audienceNon-rigid registration is often used for 3D representations during surgical pr...
. This paper describes a new method of non-rigid registration using the combined power of elastic an...
This paper is concerned with registering three-dimensional wire-frame organ models. This involves fi...
Deformable registration algorithms need in general an appropriate initialization of the volumes that...
Abstract. We propose a new approach for validating deformable image registration algorithms. Since d...
This paper describes two new atlas-based methods of 2D single modality non-rigid registration using ...
International audienceThe nonrigid alignment between a pre-operative biomechanical model and an intr...
International audienceIn this paper we propose a method to address the problem of non-rigid registra...
In this work, we explore the role of image-derived forces in an elastic image registration model, an...
In this paper we describe a new algorithm for nonrigid registration based on an elastically deformab...
Copyright © 2013 Peng Liu et al.This is an open access article distributed under the Creative Common...
Medical images that are to be registered for clinical application often contain both structures that...
In the context of computer assist surgical techniques, a new elastic registration method of 3D meshe...
International audienceImage registration plays a very important role in quantifying cardiac motion f...
International audienceWhile focusing at accurate 3D joint kinematics, this paper explores the proble...