Source:Journal of Neuroscience Methods
Author(s): Seyed Mostafa Kia, Fabian Pedregosa, Anna Blumenthal, Andrea Passerini
BackgroundThe use of machine learning models to discriminate between patterns of neural activity has become in recent years a standard analysis approach in neuroimaging studies. Whenever these models are linear, the estimated parameters can be visualized in the form of brain maps which can aid in understanding how brain activity in space and time underlies a cognitive function. However, the recovered brain maps often suffer from lack of interpretability, especially in group analysis of multi–subject data.New MethodTo facilitate the application of brain decoding in group–level analysis, we present an application of multi–task joint feature learning for group–level multivariate pattern recovery in single–trial magnetoencephalography (MEG) decoding. The proposed method allows for recovering sparse yet consistent patterns across different subjects, and therefore enhances the interpretability of the decoding model.ResultsOur experimental results demonstrate that the mutli–task joint feature learning framework is capable of recovering more meaningful patterns of varying spatio–temporally distributed brain activity across individuals while still maintaining excellent generalization performance.Comparison with Existing MethodsWe compare the performance of the multi–task joint feature learning in terms of generalization, reproducibility, and quality of pattern recovery against traditional single–subject and pooling approaches on both simulated and real MEG datasets.ConclusionsThese results can facilitate the usage of brain decoding for the characterization of fine–level distinctive patterns in group–level inference. Considering the importance of group–level analysis, the proposed approach can provide a methodological shift towards more interpretable brain decoding models.
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