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Multiscale temporal neural dynamics predict performance in a complex sensorimotor task

: Samek, W.; Blythe, D.A.J.; Curio, G.; Müller, K.-R.; Blankertz, B.; Nikulin, V.V.


NeuroImage 141 (2016), pp.291-303
ISSN: 1053-8119
ISSN: 1095-9572
Journal Article
Fraunhofer HHI ()

Ongoing neuronal oscillations are pivotal in brain functioning and are known to influence subjects' performance. This modulation is usually studied on short time scales whilst multiple time scales are rarely considered. In our study we show that Long-Range Temporal Correlations (LRTCs) estimated from the amplitude of EEG oscillations over a range of time-scales predict performance in a complex sensorimotor task, based on Brain-Computer Interfacing (BCI). Our paradigm involved eighty subjects generating covert motor responses to dynamically changing visual cues and thus controlling a computer program through the modulation of neuronal oscillations. The neuronal dynamics were estimated with multichannel EEG. Our results show that: (a) BCI task accuracy may be predicted on the basis of LRTCs measured during the preceding training session, and (b) this result was not due to signal-to-noise ratio of the ongoing neuronal oscillations.