Smooth Principal Component Analysis over two-dimensional manifolds with an application to Neuroimaging

Keywords

Statistical learning
Code:
46/2016
Title:
Smooth Principal Component Analysis over two-dimensional manifolds with an application to Neuroimaging
Date:
Thursday 17th November 2016
Author(s):
Lila, E.; Aston, J.A.D.; Sangalli, L.M.
Download link:
Abstract:
Motivated by the analysis of high-dimensional neuroimaging signals located over the cortical surface, we introduce a novel Principal Component Analysis technique that can handle functional data located over a two-dimensional manifold. For this purpose a regularization approach is adopted, introducing a smoothing penalty coherent with the geodesic distance over the manifold. The model introduced can be applied to any manifold topology, can naturally handle missing data and functional samples evaluated in different grids of points. We approach the discretization task by means of finite element analysis and propose an efficient iterative algorithm for its resolution. We compare the performances of the proposed algorithm with other approaches classically adopted in literature. We finally apply the proposed method to resting state functional magnetic resonance imaging data from the Human Connectome Project, where the method shows substantial differential variations between brain regions that were not apparent with other approaches.
This report, or a modified version of it, has been also submitted to, or published on
Annals of Applied Statistics, 2016, 10 (4), 1854-1879