Shape bottlenecks and conservative flow systems [medical image analysis]

Author

Mangin, Jean-François ; Régis, Jean ; Frouin, Vincent

Author_Institution

Service Hospitalier, CEA, Orsay, France

fYear

1996

fDate

21-22 Jun 1996

Firstpage

319

Lastpage

328

Abstract

Proposes an alternative to mathematical morphology to analyze complex shapes. This approach aims mainly at the detection of shape bottlenecks which are often of interest in medical imaging because of their anatomical meaning. The detection idea consists in simulating the steady state of an information transmission process between two parts of a complex object in order to highlight bottlenecks as areas of high information flow. This information transmission process is supposed to have a conservative flow which leads to the well-known Dirichlet-Neumann problem. This problem is solved using finite differences, over-relaxation and a raw to fine implementation. The method is applied to the detection of main bottlenecks of brain white matter network, namely corpus callosum, anterior commissure and brain stem

Keywords

brain; mathematical morphology; medical image processing; Dirichlet-Neumann problem; anterior commissure; brain stem; brain white matter network; complex object; conservative flow systems; corpus callosum; diagnostic imaging; information transmission process; medical image analysis; over-relaxation; raw to fine implementation; shape bottlenecks detection; Biomedical imaging; Convergence; Image reconstruction; Image segmentation; Medical simulation; Morphology; Object detection; Partial differential equations; Shape; Steady-state;

fLanguage

English

Publisher

ieee

Conference_Titel

Mathematical Methods in Biomedical Image Analysis, 1996., Proceedings of the Workshop on

Conference_Location

San Francisco, CA

Print_ISBN

0-8186-7368-0

Type

conf

DOI

10.1109/MMBIA.1996.534084

Filename

534084