空间彩色噪声中的最大似然偶极子拟合。

B V Baryshnikov, B D Van Veen, R T Wakai
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引用次数: 0

摘要

我们评估了存在空间彩色噪声的体感诱发场(SEF) MEG数据的最大似然偶极子拟合算法。该方法利用诱发反应数据的时间多历元结构,从拟合数据部分估计空间噪声协方差矩阵,消除了基于预刺激的白化方法隐含的平稳性假设。使用自举技术评估了该方法的性能,包括与其他定位技术(偶极子拟合、LCMV和MUSIC)相比的有效性。合成数据结果表明,当传统偶极子拟合算法失效时,该算法在存在相对高水平噪声的情况下具有鲁棒性。将该算法应用于成人体感脑磁图数据表明,虽然它对高信噪比数据不利,但随着数据样本量的减少,它确实提供了更好的性能(通过定位的传播来衡量)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Maximum likelihood dipole fitting in spatially colored noise.

We evaluated a maximum likelihood dipole-fitting algorithm for somatosensory evoked field (SEF) MEG data in the presence of spatially colored noise. The method exploits the temporal multiepoch structure of the evoked response data to estimate the spatial noise covariance matrix from the section of data being fit, which eliminates the stationarity assumption implicit in prestimulus based whitening approaches. The performance of the method, including its effectiveness in comparison to other localization techniques (dipole fitting, LCMV and MUSIC) was evaluated using the bootstrap technique. Synthetic data results demonstrated robustness of the algorithm in the presence of relatively high levels of noise when traditional dipole fitting algorithms fail. Application of the algorithm to adult somatosensory MEG data showed that while it is not advantageous for high SNR data, it definitely provides improved performance (measured by the spread of localizations) as the data sample size decreases.

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