Comparison of different source localization methods

Proceedings SIBGRAPI'98. International Symposium on Computer Graphics, Image Processing, and Vision (Cat. No.98EX237) Pub Date : 1998-01-20 DOI:10.1109/SIBGRA.1998.722767

D.C. Fernandez, R. De Peralta Menendez, S. Andino, E.O. Farras

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引用次数: 1

Abstract

The localization of the neural generators of the brain's electromagnetic activity based an electrical or magnetic recordings requires the solution of an ill-posed inverse problem. In its general form, this inverse problem has no unique solution. The only way to deal with this problem, is to restrict the set of possible solutions by using either anatomical or mathematical constraints or a combination of both. On the basis of these restrictions, different reconstructions of the sources of EEG and MEG are possible, each providing a different representation of the electrical processes in the brain. Opposed to the more classical dipole localization methods, inverse procedures that produce distributed estimates of neuronal currents have received increasing attention in the last few years. In this paper, we compare different source localization methods using data from a pathological subject. Among these methods are: (1) spatio-temporal source models (BESA); (2) generalized minimum norm solutions (MNS) and (3) electromagnetic temporal tomography (EMTT). In order to assess their specific performance, each method is compared with the information contained in the CT.

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不同信号源定位方法的比较

根据电记录或磁记录对大脑电磁活动的神经发生器进行定位，需要解决一个难以解决的逆问题。在一般情况下，这个逆问题没有唯一的解。处理这个问题的唯一方法是利用解剖学或数学限制或两者的结合来限制可能的解集。在这些限制的基础上，可以对 EEG 和 MEG 的来源进行不同的重构，每种重构都提供了大脑中电过程的不同表征。与更经典的偶极定位方法相反，产生神经元电流分布式估计值的反向程序在过去几年中受到越来越多的关注。在本文中，我们使用病理对象的数据对不同的源定位方法进行了比较。这些方法包括(1) 时空源模型 (BESA)；(2) 广义最小规范解 (MNS) 和 (3) 电磁时空断层扫描 (EMTT)。为了评估它们的具体性能，每种方法都与 CT 中包含的信息进行了比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings SIBGRAPI'98. International Symposium on Computer Graphics, Image Processing, and Vision (Cat. No.98EX237)

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