A transformer model for learning spatiotemporal contextual representation in fMRI data

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Abstract

Representation learning is a core component in data-driven modeling of various complex phenomena. Learning a contextually informative representation can especially benefit the analysis of fMRI data because of the complexities and dynamic dependencies present in such datasets. In this work, we propose a framework based on transformer models to learn an embedding of the fMRI data by taking the spatiotemporal contextual information in the data into account. This approach takes the multivariate BOLD time series of the regions of the brain as well as their functional connectivity network simultaneously as the input to create a set of meaningful features that can in turn be used in various downstream tasks such as classification, feature extraction, and statistical analysis. The proposed spatiotemporal framework uses the attention mechanism as well as the graph convolution neural network to jointly inject the contextual information regarding the dynamics in time series data and their connectivity into the representation. We demonstrate the benefits of this framework by applying it to two restingstate fMRI datasets, and provide further discussion on various aspects and advantages of it over a number of other commonly adopted architectures.

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APA

Asadi, N., Olson, I. R., & Obradovic, Z. (2023). A transformer model for learning spatiotemporal contextual representation in fMRI data. Network Neuroscience, 7(1), 22–47. https://doi.org/10.1162/netn_a_00281

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