Few-shot Decoding of Brain Activation Maps
Abstract
Few-shot learning addresses problems for which a limited number of training examples are available. So far, the field has been mostly driven by applications in computer vision. Here, we are interested in adapting recently introduced few-shot methods to solve problems dealing with neuroimaging data, a promising application field. To this end, we create a neuroimaging benchmark dataset for few-shot learning and compare multiple learning paradigms, including meta-learning, as well as various backbone networks. Our experiments show that few-shot methods are able to efficiently decode brain signals using few examples, which paves the way for a number of applications in clinical and cognitive neuroscience, such as identifying biomarkers from brain scans or understanding the generalization of brain representations across a wide range of cognitive tasks.
Cite
@article{arxiv.2010.12500,
title = {Few-shot Decoding of Brain Activation Maps},
author = {Myriam Bontonou and Giulia Lioi and Nicolas Farrugia and Vincent Gripon},
journal= {arXiv preprint arXiv:2010.12500},
year = {2021}
}
Comments
5 pages. Updated title and minor modifications