Continuous Three-Dimensional Control of a Virtual Helicopter Using a Motor Imagery Based Brain-Computer Interface
Published on 2011-10-26 in PLoS ONE, vol 6. DOI: 10.1371/journal.pone.0026322
Research Article, Biology, Neuroscience, Computational neuroscience, Medicine, Anatomy and physiology, Neurological system, Motor systems, Engineering, Bioengineering, Diagnostic medicine, Clinical neurophysiology, Cognitive neuroscience, Physiology, Neurophysiology, Behavioral neuroscience, Learning and memory, Neuropsychology, Bionics, Electroencephalography, Biotechnology
Brain-computer interfaces (BCIs) allow a user to interact with a computer system using thought. However, only recently have devices capable of providing sophisticated multi-dimensional control been achieved non-invasively. A major goal for non-invasive BCI systems has been to provide continuous, intuitive, and accurate control, while retaining a high level of user autonomy. By employing electroencephalography (EEG) to record and decode sensorimotor rhythms (SMRs) induced from motor…
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