We present a new non-rigid registration algorithm estimating the displacement field generated by articulated bodies. Indeed the bony structures between different patient images may rigidly move while other tissues may deform in a more complex way. Our algorithm tracks the displacement induced in the column by a movement of the patient between two acquisitions. The volumetric deformation field in the whole body is then inferred from those displacements using a linear elastic biomechanical finite element model. We demonstrate in this paper that this method provides accurate results on 3D sets of computed tomography (CT), MR and positron emission tomography (PET) images and that the results of the registration algorithm show significant decrea...
In this work, we explore the role of image-derived forces in an elastic image registration model, an...
This thesis presents research and development in registration of images containing rigid structures ...
Abstract. We propose a new approach for validating deformable image registration algorithms. Since d...
This paper presents a complete method estimating the displacement field of bodies constrained by an ...
Multi-modality imaging studies are becoming more widely utilized inthe analysis of medical data. Ana...
Whole-body computed tomography (CT) image registration is important for cancer diagnosis, therapy pl...
Registration of whole-body radiographic images is an important task in analysis of the disease progr...
Volume registration of articulated subjects such as the hu-man knee region requires novel methods to...
Medical images that are to be registered for clinical application often contain both structures that...
The Problem: Our intention is to find a non-rigid transformation in 3D that provides a registration ...
The main goal of the thesis was the development of a registration method able to match images contai...
Patient-specific biomechanical models have been advocated as a tool for predicting deformations of s...
In present-day medical practice it is often necessary to nonrigidly align image data. Current regist...
Objective: Medical image registration can be formulated as a tissue deformation problem, where param...
ABSTRACT: Articulated models are commonly used for recognition tasks in robotics and in gait analysi...
In this work, we explore the role of image-derived forces in an elastic image registration model, an...
This thesis presents research and development in registration of images containing rigid structures ...
Abstract. We propose a new approach for validating deformable image registration algorithms. Since d...
This paper presents a complete method estimating the displacement field of bodies constrained by an ...
Multi-modality imaging studies are becoming more widely utilized inthe analysis of medical data. Ana...
Whole-body computed tomography (CT) image registration is important for cancer diagnosis, therapy pl...
Registration of whole-body radiographic images is an important task in analysis of the disease progr...
Volume registration of articulated subjects such as the hu-man knee region requires novel methods to...
Medical images that are to be registered for clinical application often contain both structures that...
The Problem: Our intention is to find a non-rigid transformation in 3D that provides a registration ...
The main goal of the thesis was the development of a registration method able to match images contai...
Patient-specific biomechanical models have been advocated as a tool for predicting deformations of s...
In present-day medical practice it is often necessary to nonrigidly align image data. Current regist...
Objective: Medical image registration can be formulated as a tissue deformation problem, where param...
ABSTRACT: Articulated models are commonly used for recognition tasks in robotics and in gait analysi...
In this work, we explore the role of image-derived forces in an elastic image registration model, an...
This thesis presents research and development in registration of images containing rigid structures ...
Abstract. We propose a new approach for validating deformable image registration algorithms. Since d...