用于脑磁图/脑电图的广义头部模型：超越嵌套体积的边界元法

Generalized head models for MEG/EEG: boundary element method beyond nested volumes.

作者信息

Kybic Jan, Clerc Maureen, Faugeras Olivier, Keriven Renaud, Papadopoulo Théo

机构信息

Center for Machine Perception, Faculty of Electrical Engineering, Czech Technical University in Prague, Czech Republic.

出版信息

Phys Med Biol. 2006 Mar 7;51(5):1333-46. doi: 10.1088/0031-9155/51/5/021. Epub 2006 Feb 15.

DOI:10.1088/0031-9155/51/5/021

PMID:16481698

Abstract

Accurate geometrical models of the head are necessary for solving the forward and inverse problems of magneto- and electro-encephalography (MEG/EEG). Boundary element methods (BEMs) require a geometrical model describing the interfaces between different tissue types. Classically, head models with a nested volume topology have been used. In this paper, we demonstrate how this constraint can be relaxed, allowing us to model more realistic head topologies. We describe the symmetric BEM for this new model. The symmetric BEM formulation uses both potentials and currents at the interfaces as unknowns and is in general more accurate than the alternative double-layer formulation.

摘要

精确的头部几何模型对于解决脑磁图和脑电图（MEG/EEG）的正问题和逆问题是必要的。边界元方法（BEM）需要一个描述不同组织类型之间界面的几何模型。传统上，使用具有嵌套体积拓扑的头部模型。在本文中，我们展示了如何放宽此约束，从而使我们能够对更逼真的头部拓扑进行建模。我们描述了针对此新模型的对称边界元方法。对称边界元方法公式将界面处的电位和电流都用作未知数，并且通常比替代的双层公式更精确。

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用于脑磁图/脑电图的广义头部模型：超越嵌套体积的边界元法

Generalized head models for MEG/EEG: boundary element method beyond nested volumes.

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