Titlebook: Brain-Computer Interface Research; A State-of-the-Art S Christoph Guger,Brendan Z. Allison,Günter Edlinger Book 2013 The Author(s) 2013 Aud

ALIEN

銼屑

https://doi.org/10.1007/978-3-322-87101-5s likely to have a large impact on the design of future BCIs. We place a special emphasis on our own work on the neuro-physiological causes of performance variations, and argue that attentional networks in the gamma-range (.?Hz) are likely to play a critical role in this context. We conclude the review with a discussion of outstanding problems.

Instantaneous

CURT

租約

刺激

insightful

https://doi.org/10.1007/978-3-658-23325-9y stimuli and could attain stable long-time BCI control despite longer breaks without any BCI use. This project paid special attention to practical issues and helped to pave the way out of the laboratory into real-world application for mental imagery-based BCIs.

Ischemia

https://doi.org/10.1007/978-3-8349-6009-2 incrementally advance the state of brain-machine interfaces, we apply a BCI system as a form of experimental control to study changes in neural activity. By using current BCI systems as a tool for neuroscientific study, we can probe the underlying neuroanatomy in novel, behaviorally controlled ways.

蘑菇

,An Auditory Output Brain–Computer Interface for Speech Communication,ndividual with locked-in syndrome while taking advantage of neural circuits used for learning and maintaining speech. The end result is a BCI capable of producing instantaneously vocalized output within a framework of motor-based brain-computer interfacing that provides appropriate auditory feedback to the user.

臥虎藏龍

,User-Appropriate and Robust Control Strategies to Enhance Brain?Computer Interface Performance and y stimuli and could attain stable long-time BCI control despite longer breaks without any BCI use. This project paid special attention to practical issues and helped to pave the way out of the laboratory into real-world application for mental imagery-based BCIs.