Machine learning in resting-state fMRI analysis

Machine learning techniques have gained prominence for the analysis of resting-state functional Magnetic Resonance Imaging (rsfMRI) data. Here, we present an overview of various unsupervised and supervised machine learning applicationsto rsfMRI. We present a methodical taxonomy of machine learning methods in resting-state fMRI. We identify three major divisions of unsupervised learning methods with regard to their applications to rsfMRI, based on whether they discover principal modes of variation across space, time or population. Next, we survey the algorithms and rsfMRI feature representations that have driven the success of supervised subject-level predictions. Thegoal is to provide a high-level overview of the burgeoning field of rsfMRI from the perspective of machine learning applications. Keywords: Machine learning, resting-state, functional MRI, intrinsic networks, brain connectivity 1. Introduction Resting-state fMRI (rsfMRI) is a widely used neuroimaging tool that ...