Reading Group: Random Subspace Ensembles for fMRI Classification

SpeakerJanaina Mourao-Miranda
AffiliationComputer Science Department, UCL
DateWednesday, 20 Apr 2011
Time14:00 - 15:00
LocationEng 1.04
Event seriesMachine Learning for Neuroimaging Reading Group

Classification of brain images obtained through functional magnetic resonance imaging (fMRI) poses a serious challenge to pattern recognition and machine learning due to the extremely large feature-to-instance ratio. This calls for revi- sion and adaptation of the current state-of-the-art classification methods. We investigate the suitability of the random subspace (RS) ensemble method for fMRI classification. RS samples from the original feature set and builds one (base) classifier on each subset. The ensemble assigns a class label by either majority voting or averaging of output probabilities. Looking for guidelines for setting the two parameters of the method�ensemble size and feature sample size�we introduce three criteria calculated through these parameters: usability of the selected feature sets, coverage of the set of �important� features, and feature set diver- sity. Optimized together, these criteria work toward producing accurate and diverse individual classifiers. RS was tested on three fMRI datasets from single-subject experiments: the Haxby et al. data (Haxby, 2001.) and two datasets collected in-house. We found that RS with support vector machines (SVM) as the base classifier outperformed single classifiers as well as some of the most widely used classifier ensembles such as bagging, AdaBoost, random forest, and rotation forest. The closest rivals were the single SVM and bagging of SVM classifiers. We use kappa-error diagrams to understand the success of RS.

iCalendar csml_id_39.ics