形状瓶颈和保守流系统[医学图像分析]

Proceedings of the Workshop on Mathematical Methods in Biomedical Image Analysis Pub Date : 1996-06-21 DOI:10.1109/MMBIA.1996.534084

J. F. Mangin, J. Régis, V. Frouin

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引用次数: 18

摘要

提出一种替代数学形态学的方法来分析复杂形状。该方法主要针对形状瓶颈的检测，由于其解剖学意义，形状瓶颈在医学成像中经常引起人们的兴趣。检测思想在于模拟复杂物体的两个部分之间的信息传输过程的稳态，以突出瓶颈作为高信息流的区域。这种信息传递过程被认为是一个保守的过程，这导致了众所周知的狄利克雷-诺伊曼问题。这个问题可以通过有限差分、过度松弛和从原始到精细的实现来解决。该方法用于检测脑白质网络的主要瓶颈，即胼胝体、前连合和脑干。

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Shape bottlenecks and conservative flow systems [medical image analysis]

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.

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Proceedings of the Workshop on Mathematical Methods in Biomedical Image Analysis

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