Patient-specific geometric models are needed in many engineering problems. This work reports a novel software tool developed to construct individualized triangulated surface models from MR images. The program consists of three main parts: segmentation, triangulation and registration. The software tool was developed under the unix operating system. The application area demonstrated in this work is bioelectromagnetism but the program can be used as well in other engineering problems. The tool has been successfully applied in numerous cases, both for the thorax and the head
This thesis presents a computational framework and new algorithms for creating geometric models and ...
The aim of this project was to increase the knowledge of how numerical models can be generated based...
Introduction: An accurate 3D mesh model of brain vasculature is fundamental for analysis and treatm...
Purpose : Simulating the interaction of the human body with electromagnetic fields is an active fiel...
An accurate surface model is necessary in many biomedical applications. An anatomic volume, like MR ...
The paper presents a simple 3D finite element mesh morpher aimed at creation of patient-specific mod...
Medical imaging modalities, such as magnetic resonance (MR), histological images, and positron emiss...
Abstract. There are fields of engineering where accurate and personalised data are required; biomed-...
This paper describes a new global shape parametrization for smoothly deformable three-dimensional (3...
There are fields of engineering where accurate and personalised data are required; biomedical applic...
Abstract: Because of FEM computational modelling of human tissues, in number of biomechanical applic...
This thesis deals with the separation of artifacts in medical image data from sources of magnetic re...
We present a new method for defining and meshing patient-specific domains from medical images. Our a...
In medical diagnostics one need to perform quantitative analysis and measurements of 2D or 3D data. ...
In this paper a fully automated segmentation system for the femur in the knee in Magnetic Resonance ...
This thesis presents a computational framework and new algorithms for creating geometric models and ...
The aim of this project was to increase the knowledge of how numerical models can be generated based...
Introduction: An accurate 3D mesh model of brain vasculature is fundamental for analysis and treatm...
Purpose : Simulating the interaction of the human body with electromagnetic fields is an active fiel...
An accurate surface model is necessary in many biomedical applications. An anatomic volume, like MR ...
The paper presents a simple 3D finite element mesh morpher aimed at creation of patient-specific mod...
Medical imaging modalities, such as magnetic resonance (MR), histological images, and positron emiss...
Abstract. There are fields of engineering where accurate and personalised data are required; biomed-...
This paper describes a new global shape parametrization for smoothly deformable three-dimensional (3...
There are fields of engineering where accurate and personalised data are required; biomedical applic...
Abstract: Because of FEM computational modelling of human tissues, in number of biomechanical applic...
This thesis deals with the separation of artifacts in medical image data from sources of magnetic re...
We present a new method for defining and meshing patient-specific domains from medical images. Our a...
In medical diagnostics one need to perform quantitative analysis and measurements of 2D or 3D data. ...
In this paper a fully automated segmentation system for the femur in the knee in Magnetic Resonance ...
This thesis presents a computational framework and new algorithms for creating geometric models and ...
The aim of this project was to increase the knowledge of how numerical models can be generated based...
Introduction: An accurate 3D mesh model of brain vasculature is fundamental for analysis and treatm...