Title :
An adaptive and efficient spatial filter for event-related potentials
Author :
Ghaderi, Foad ; Straube, Sirko
Author_Institution :
Robot. Group, Univ. of Bremen, Bremen, Germany
Abstract :
A major problem in designing brain computer interface (BCI) systems is the variations of data during long sessions, and also from session to session and subject to subject. This demands extensive training sessions to maintain the overall performance of the systems. As an alternative, here we propose an adaptive version of the πSF method. Taking advantage of simple structure, high performance, and low computational complexity of the algorithm, an extension is developed that can adapt the trained transformation to the new instances. Experimental results confirm that the adaptive method (aπSF) outperforms the non-adaptive versions of πSF and the xDAWN method in an inter-subject train-test schema.
Keywords :
adaptive filters; bioelectric potentials; brain-computer interfaces; computational complexity; spatial filters; adaptive πSF method; adaptive filter; brain computer interface; computational complexity; data variations; efficient spatial filter; event related potential; intersubject train test schema; xDAWN method; Artificial intelligence; Computers; Matrix decomposition; Robots; Spatial filters; Training; Yttrium; adaptivity; event-related potentials; periodic spatial filter; single-trial ERP detection;
Conference_Titel :
Signal Processing Conference (EUSIPCO), 2013 Proceedings of the 21st European
Conference_Location :
Marrakech
