EEG-based brain–computer interfaces
DJ McFarland, JR Wolpaw - current opinion in Biomedical Engineering, 2017 - Elsevier
Abstract Brain–Computer Interfaces (BCIs) are real-time computer-based systems that
translate brain signals into useful commands. To date most applications have been …
translate brain signals into useful commands. To date most applications have been …
A high-performance neuroprosthesis for speech decoding and avatar control
Speech neuroprostheses have the potential to restore communication to people living with
paralysis, but naturalistic speed and expressivity are elusive. Here we use high-density …
paralysis, but naturalistic speed and expressivity are elusive. Here we use high-density …
Brain-computer interfaces systems for upper and lower limb rehabilitation: a systematic review
D Camargo-Vargas, M Callejas-Cuervo, S Mazzoleni - Sensors, 2021 - mdpi.com
In recent years, various studies have demonstrated the potential of electroencephalographic
(EEG) signals for the development of brain-computer interfaces (BCIs) in the rehabilitation of …
(EEG) signals for the development of brain-computer interfaces (BCIs) in the rehabilitation of …
Brain-computer interface: current and emerging rehabilitation applications
JJ Daly, JE Huggins - Archives of physical medicine and rehabilitation, 2015 - Elsevier
A formal definition of brain-computer interface (BCI) is as follows: a system that acquires
brain signal activity and translates it into an output that can replace, restore, enhance …
brain signal activity and translates it into an output that can replace, restore, enhance …
Heading for new shores! Overcoming pitfalls in BCI design
Research in brain-computer interfaces has achieved impressive progress towards
implementing assistive technologies for restoration or substitution of lost motor capabilities …
implementing assistive technologies for restoration or substitution of lost motor capabilities …
What would brain-computer interface users want: opinions and priorities of potential users with spinal cord injury
JE Huggins, AA Moinuddin, AE Chiodo… - Archives of physical …, 2015 - Elsevier
Objectives To identify perceptions among people with spinal cord injury (SCI) of the priorities
for brain-computer interface (BCI) applications and design features along with the time …
for brain-computer interface (BCI) applications and design features along with the time …
A virtual reality muscle–computer interface for neurorehabilitation in chronic stroke: A pilot study
Severe impairment of limb movement after stroke can be challenging to address in the
chronic stage of stroke (eg, greater than 6 months post stroke). Recent evidence suggests …
chronic stage of stroke (eg, greater than 6 months post stroke). Recent evidence suggests …
What stakeholders with neurodegenerative conditions value about speed and accuracy in development of BCI systems for communication
M Fried-Oken, M Kinsella, I Stevens… - Brain-Computer …, 2024 - Taylor & Francis
This research examined how individuals with neurodegenerative disease value features of
speed and accuracy as they consider potential use of augmentative and alternative …
speed and accuracy as they consider potential use of augmentative and alternative …
A bilingual speech neuroprosthesis driven by cortical articulatory representations shared between languages
Advancements in decoding speech from brain activity have focused on decoding a single
language. Hence, the extent to which bilingual speech production relies on unique or …
language. Hence, the extent to which bilingual speech production relies on unique or …
The brain-computer interface researcher's questionnaire: from research to application
MJ Vansteensel, G Kristo, EJ Aarnoutse… - Brain-Computer …, 2017 - Taylor & Francis
Over the last decades, the brain-computer interface (BCI) research field has seen steep
progress and now recognizes several types of applications, each with its own target …
progress and now recognizes several types of applications, each with its own target …