Optimizing magnetometers arrays and analysis pipelines for multivariate pattern analysis

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-09-17 DOI:10.1016/j.jneumeth.2024.110279
Yulia Bezsudnova, Andrew J. Quinn, Ole Jensen
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Abstract

Background

Multivariate pattern analysis (MVPA) has proven an excellent tool in cognitive neuroscience. It also holds a strong promise when applied to optically-pumped magnetometer-based magnetoencephalography.

New method

To optimize OPM-MEG systems for MVPA experiments this study examines data from a conventional MEG magnetometer array, focusing on appropriate noise reduction techniques for magnetometers. We determined the least required number of sensors needed for robust MVPA for image categorization experiments.

Results

We found that the use of signal space separation (SSS) without a proper regularization significantly lowered the classification accuracy considering a sub-array of 102 magnetometers or a sub-array of 204 gradiometers. We also found that classification accuracy did not improve when going beyond 30 sensors irrespective of whether SSS has been applied.

Comparison with existing methods

The power spectra of data filtered with SSS has a substantially higher noise floor that data cleaned with SSP or HFC. Consequently, MVPA decoding results obtained from the SSS-filtered data are significantly lower compared to all other methods employed.

Conclusions

When designing MEG system based on SQUID magnetometers optimized for multivariate analysis for image categorization experiments, about 30 magnetometers are sufficient. We advise against applying SSS filters without a proper regularization to data from MEG and OPM systems prior to performing MVPA as this method, albeit reducing low-frequency external noise contributions, also introduces an increase in broadband noise. We recommend employing noise reduction techniques that either decrease or maintain the noise floor of the data like signal-space projection, homogeneous field correction and gradient noise reduction.
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为多元模式分析优化磁强计阵列和分析管道。
背景:多变量模式分析(MVPA)已被证明是认知神经科学中的一种优秀工具。新方法:为了优化用于 MVPA 实验的 OPM-MEG 系统,本研究检查了传统 MEG 磁强计阵列的数据,重点是磁强计的适当降噪技术。我们确定了图像分类实验中稳健 MVPA 所需的最少传感器数量:我们发现,使用信号空间分离(SSS)而不进行适当的正则化,会显著降低由 102 个磁强计组成的子阵列或由 204 个梯度计组成的子阵列的分类准确性。我们还发现,无论是否使用了 SSS,当传感器数量超过 30 个时,分类准确率并没有提高:与现有方法的比较:与使用 SSP 或 HFC 净化的数据相比,使用 SSS 过滤的数据的功率谱具有更高的本底噪声。因此,与采用的所有其他方法相比,从 SSS 过滤数据中获得的 MVPA 解码结果要低得多:在设计基于 SQUID 磁强计的 MEG 系统时,为图像分类实验的多元分析进行优化,大约 30 个磁强计就足够了。我们建议,在进行 MVPA 之前,不要对 MEG 和 OPM 系统的数据应用 SSS 滤波器而不进行适当的正则化处理,因为这种方法虽然能减少低频外部噪声,但也会增加宽带噪声。我们建议采用降噪技术,如信号空间投影、均质场校正和梯度降噪,以降低或保持数据的本底噪声。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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