现实几何拉普拉斯:一种中等样条估计方法

Proceedings. 2005 First International Conference on Neural Interface and Control, 2005. Pub Date : 2005-05-26 DOI:10.1109/ICNIC.2005.1499866

Yiran Zhai, D. Yao

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引用次数: 1

摘要

提出了一种用于高分辨率脑电映射的逼真几何样条拉普拉斯(MSL)中尺度方法。该方法首先在选定的半径范围内找到头皮表面上一个电极的邻近电极，利用其空间坐标和电位生成区域样条插值电位分布函数，然后利用拉普拉斯微分运算估计该电极位置的表面拉普拉斯。采用真实头部模型和人类视觉诱发电位数据，比较了MSL和全局逼真几何样条拉普拉斯函数(GSL)的效果。结果表明MSL比GSL能提供更好的结果。

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Realistic geometry Laplacian: a moderate spline estimation approach

A moderate scale approach of the realistic geometry spline Laplacian (MSL) for high-resolution EEG mapping was proposed. In this approach, firstly find the neighboring electrodes of one electrode on the scalp surface within a chosen radius, use their spatial coordinates and potentials to generate a regional spline interpolated potential distribution function, and then estimate the surface Laplacian of this electrode position using Laplacian differentiation operation. The effects of MSL and the global realistic geometry spline Laplacian (GSL) were compared by computer simulation studies using a realistic head model and by human visual evoked potential data. All the results show MSL can provide better results than that do by GSL.

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Proceedings. 2005 First International Conference on Neural Interface and Control, 2005.

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