Add to ORKGIn this work, a procedure is presented for the reconstruction of biological organs from image sequences obtained through CT-scan. Although commercial software, which can accomplish this task, are readily available, the procedure presented here needs only free software. The procedure has been applied to reconstruct a liver from the scan data available in literature. 3D biological organs obtained this way can be used for the finite element analysis of biological organs and this has been demonstrated by carrying out an FE analysis on the reconstructed liver
To know the exact location of the internal structures of the organs, especially the vasculature, is ...
To know the exact location of the internal structures of the organs, especially the vasculature, is ...
1Computational imaging techniques such as X-ray computed tomography (CT) rely on a significant amoun...
This work presents a methodology to reconstruct 3D biological organs from image sequences or other s...
This paper describes a valuable medical investigation method based on computed tomography. It’s abou...
Práce je věnována problematice 3D rekonstrukce snímků výpočetní tomografie. Byla provedena rešerše...
In medical imaging, segmentation of different areas of human body like bones, organs, tissues, etc. ...
This conference paper was presented in 16th International Conference on Computer and Information Tec...
Abstract3D reconstruction of face is one of the advancements in physical modeling techniques which u...
Three-dimensional (3D) imaging is becoming one of the most important applications of radioactive mat...
Medical image processing constitutes an important research area of the biomedical engineering since ...
Current CAD (Computer Aided Diagnosis) systems supporting the present medical imaging scanners (e.g,...
The paper describes a method for creating 3D objects of selected organs based on images of successiv...
This chapter aims at introducing and discussing the techniques for the generation of 3D Finite Eleme...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, February 200...
To know the exact location of the internal structures of the organs, especially the vasculature, is ...
To know the exact location of the internal structures of the organs, especially the vasculature, is ...
1Computational imaging techniques such as X-ray computed tomography (CT) rely on a significant amoun...
This work presents a methodology to reconstruct 3D biological organs from image sequences or other s...
This paper describes a valuable medical investigation method based on computed tomography. It’s abou...
Práce je věnována problematice 3D rekonstrukce snímků výpočetní tomografie. Byla provedena rešerše...
In medical imaging, segmentation of different areas of human body like bones, organs, tissues, etc. ...
This conference paper was presented in 16th International Conference on Computer and Information Tec...
Abstract3D reconstruction of face is one of the advancements in physical modeling techniques which u...
Three-dimensional (3D) imaging is becoming one of the most important applications of radioactive mat...
Medical image processing constitutes an important research area of the biomedical engineering since ...
Current CAD (Computer Aided Diagnosis) systems supporting the present medical imaging scanners (e.g,...
The paper describes a method for creating 3D objects of selected organs based on images of successiv...
This chapter aims at introducing and discussing the techniques for the generation of 3D Finite Eleme...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, February 200...
To know the exact location of the internal structures of the organs, especially the vasculature, is ...
To know the exact location of the internal structures of the organs, especially the vasculature, is ...
1Computational imaging techniques such as X-ray computed tomography (CT) rely on a significant amoun...