G
Gert Pfurtscheller
Researcher at Graz University of Technology
Publications - 510
Citations - 68013
Gert Pfurtscheller is an academic researcher from Graz University of Technology. The author has contributed to research in topics: Electroencephalography & Brain–computer interface. The author has an hindex of 117, co-authored 507 publications receiving 62873 citations. Previous affiliations of Gert Pfurtscheller include University of Graz.
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Journal ArticleDOI
On the existence of different types of central beta rhythms below 30 Hz
TL;DR: The post-movement beta synchronization (PMBS) was of contralateral dominance and is interpreted as a correlate of active inhibition or idling of the primary motor area following movement execution.
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Walking from thought.
Gert Pfurtscheller,Robert Leeb,Claudia Keinrath,Doron Friedman,Christa Neuper,Christoph Guger,Mel Slater +6 more
TL;DR: Online analysis and classification of single electroencephalogram (EEG) trials during motor imagery were used for navigation in the virtual environment (VE) to demonstrate for the first time that it is possible to move through a virtual street without muscular activity when the participant only imagines feet movements.
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Event-related desynchronisation of central beta-rhythms during brisk and slow self-paced finger movements of dominant and nondominant hand.
TL;DR: The results suggest that the dynamics of premovement desynchronisation and postmovement synchronisation of central beta-rhythms is related to hand dominance.
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Enhancement of left-right sensorimotor EEG differences during feedback-regulated motor imagery.
TL;DR: EEG feedback studies demonstrate that human subjects can learn to regulate electrocortical activity over the sensorimotor cortex and self-induced EEG changes could serve as control signals for a Brain Computer Interface.
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Event-Related changes of band power and coherence: methodology and interpretation.
Gert Pfurtscheller,Colin Andrew +1 more
TL;DR: In this paper, the authors show that the ERCoh time course depends on the type of EEG derivation use for event-related desynchronization, synchronization, and coherence.