Brain Computer Interface Learning for Systems Based on Electrocorticography and Intracortical Microelectrode Arrays

Shivayogi V Hiremath; Shivayogi V Hiremath; Weidong eChen; Weidong eChen; Wei eWang; Wei eWang; Wei eWang; Wei eWang; Stephen eFoldes; Stephen eFoldes; Stephen eFoldes; Ying eYang; Ying eYang; Elizabeth Christine Tyler-Kabara; Elizabeth Christine Tyler-Kabara; Elizabeth Christine Tyler-Kabara; Jennifer L Collinger; Jennifer L Collinger; Jennifer L Collinger; Jennifer L Collinger; Michael L Boninger; Michael L Boninger; Michael L Boninger; Michael L Boninger

doi:10.3389/fnint.2015.00040

Frontiers in Integrative Neuroscience (Jun 2015)

Brain Computer Interface Learning for Systems Based on Electrocorticography and Intracortical Microelectrode Arrays

Shivayogi V Hiremath,
Shivayogi V Hiremath,
Weidong eChen,
Weidong eChen,
Wei eWang,
Wei eWang,
Wei eWang,
Wei eWang,
Stephen eFoldes,
Stephen eFoldes,
Stephen eFoldes,
Ying eYang,
Ying eYang,
Elizabeth Christine Tyler-Kabara,
Elizabeth Christine Tyler-Kabara,
Elizabeth Christine Tyler-Kabara,
Jennifer L Collinger,
Jennifer L Collinger,
Jennifer L Collinger,
Jennifer L Collinger,
Michael L Boninger,
Michael L Boninger,
Michael L Boninger,
Michael L Boninger

Affiliations

Shivayogi V Hiremath: University of Pittsburgh
Shivayogi V Hiremath: Department of Veterans Affairs
Weidong eChen: Zhejiang University
Weidong eChen: University of Pittsburgh
Wei eWang: University of Pittsburgh
Wei eWang: University of Pittsburgh
Wei eWang: University of Pittsburgh
Wei eWang: Center for the Neural Basis of Cognition
Stephen eFoldes: University of Pittsburgh
Stephen eFoldes: Department of Veterans Affairs
Stephen eFoldes: Center for the Neural Basis of Cognition
Ying eYang: University of Pittsburgh
Ying eYang: Center for the Neural Basis of Cognition
Elizabeth Christine Tyler-Kabara: University of Pittsburgh
Elizabeth Christine Tyler-Kabara: University of Pittsburgh
Elizabeth Christine Tyler-Kabara: University of Pittsburgh
Jennifer L Collinger: University of Pittsburgh
Jennifer L Collinger: Department of Veterans Affairs
Jennifer L Collinger: University of Pittsburgh
Jennifer L Collinger: Center for the Neural Basis of Cognition
Michael L Boninger: University of Pittsburgh
Michael L Boninger: Department of Veterans Affairs
Michael L Boninger: University of Pittsburgh
Michael L Boninger: University of Pittsburgh

DOI: https://doi.org/10.3389/fnint.2015.00040
Journal volume & issue: Vol. 9

Abstract

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A brain-computer interface (BCI) system transforms neural activity into control signals for external devices in real time. A BCI user needs to learn to generate specific cortical activity patterns to control external devices effectively. We call this process BCI learning, and it often requires significant effort and time. Therefore, it is important to study this process and develop novel and efficient approaches to accelerate BCI learning. This article reviews major approaches that have been used for BCI learning, including computer-assisted learning, co-adaptive learning, operant conditioning, and sensory feedback. We focus on BCIs based on electrocorticography and intracortical microelectrode arrays for restoring motor function. This article also explores the possibility of brain modulation techniques in promoting BCI learning, such as electrical cortical stimulation, transcranial magnetic stimulation, and optogenetics. Furthermore, as proposed by recent BCI studies, we suggest that BCI learning is in many ways analogous to motor and cognitive skill learning, and therefore skill learning should be a useful metaphor to model BCI learning.

Published in Frontiers in Integrative Neuroscience

ISSN: 1662-5145 (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Medicine: Internal medicine: Neurosciences. Biological psychiatry. Neuropsychiatry: Neurology. Diseases of the nervous system
Website: https://www.frontiersin.org/journals/integrative-neuroscience

About the journal

Abstract

Keywords