Principal component based covariate shift adaption to reduce non-stationarity in a MEG-based brain-computer interface

Abstract

One of the biggest problems in today's BCI research is the non-stationarity of the recorded signals. This non-stationarity can cause the BCI performance to deteriorate over time or drop significantly when transferring data from one session to another. To reduce the effect of non-stationaries, we propose a new method for covariate shift adaption that is based on Principal Component Analysis to extract non-stationaries and alleviate them. We show the proposed method to significantly increase BCI performance for an MEG-based BCI in an offline analysis as well as an online experiment with 10 subjects. We also show the method to be superior to other covariate shift adaption methods and present examples of identified non-stationaries to show the effect of the proposed method. © 2012 Spuler et al..