Robust common spatial patterns based on Bhattacharyya distance and Gamma divergence

Author

Brandl, Stephanie ; Muller, Klaus-Robert ; Samek, Wojciech

Author_Institution

Dept. of Machine Learning, Berlin Inst. of Technol., Berlin, Germany

fYear

2015

fDate

12-14 Jan. 2015

Firstpage

1

Lastpage

4

Abstract

The computation of task-related spatial filters is a prerequisite for a successful application of motor imagery-based Brain-Computer Interfaces (BCI). However, in the presence of artifacts, e.g., resulting from eye movements or muscular activity, standard methods such as Common Spatial Patterns (CSP) perform poorly. Recently, a divergence-based spatial filter computation framework has been proposed which enables significantly more robust computation with respect to artifacts by using Beta divergence. In this paper we integrate two additional divergence measures, namely Bhattacharyya distance and Gamma divergence, into the divergence-based CSP framework and evaluate their robustness using simulations and data set IVa from BCI Competition III.

Keywords

brain-computer interfaces; electroencephalography; gamma distribution; medical signal processing; spatial filters; BCI Competition III; Bhattacharyya distance; IVa data set; artifacts; beta divergence; divergence measures; divergence-based CSP framework; divergence-based spatial filter computation framework; eye movements; gamma divergence; motor imagery-based brain-computer interfaces; muscular activity; robust common spatial patterns; robustness evaluation; task-related spatial filters; Electroencephalography; Feature extraction; Linear programming; Pollution measurement; Probability distribution; Robustness; Standards;

fLanguage

English

Publisher

ieee

Conference_Titel

Brain-Computer Interface (BCI), 2015 3rd International Winter Conference on

Conference_Location

Sabuk

Print_ISBN

978-1-4799-7494-8

Type

conf

DOI

10.1109/IWW-BCI.2015.7073030

Filename

7073030