Motor imagery (MI) based brain-computer interfaces (BCI) extract commands in real-time and can be used to control a cursor, a robot or functional electrical stimulation (FES) devices. The control of FES devices is especially interesting for stroke rehabilitation, when a patient can use motor imagery to stimulate specific muscles in real-time. However, damage to motor areas resulting from stroke or other causes might impair control of a motor imagery BCI for rehabilitation. The current work presents a comparative evaluation of the MI-based BCI control accuracy between stroke patients and healthy subjects. Five patients who had a stroke that affected the motor system participated in the current study, and were trained across 10–24 sessions la...
International audienceBrain-Computer Interfaces (BCIs) process brain activity in real time, and medi...
(1) Objective: To investigate the feasibility, safety, and effectiveness of a brain–computer interfa...
Brain-computer-interface-based motor imagery (MI-BCI), a control method for transferring the imagina...
Background. Stroke is the leading cause of serious and long-term disability worldwide. Survivors may...
Objective:Motor imagery (MI) is assumed to enhance poststroke motor recovery, yet its benefits are d...
In the past 3 decades, interest has increased in brain-computer interface (BCI) technology as a tool...
Brain-computer interfaces (BCIs) have recently been shown to be clinically effective as a novel meth...
Background. Recently, the brain-computer interface (BCI) has seen rapid development, which may promo...
Introduction: Motor Imagery (MI) was proposed to enhance motor recovery after stroke. EEG-based Brai...
Brain-computer interfaces (BCIs) provide a unique technological solution to circumvent the damaged m...
Background: Brain-Computer Interfaces (BCI) can potentially be used to aid in the recovery of lost m...
International audienceStroke is the leading cause of complex disability. Indeed, 40% of person suffe...
AbstractThe idea of using brain computer interfaces (BCI) for rehabilitation emerged relatively rece...
Stroke is a leading cause of long-term disability in the U.S. and does not have an effective cure ye...
Brain-computer interface (BCI) systems read and infer brain activity directly from the brain through...
International audienceBrain-Computer Interfaces (BCIs) process brain activity in real time, and medi...
(1) Objective: To investigate the feasibility, safety, and effectiveness of a brain–computer interfa...
Brain-computer-interface-based motor imagery (MI-BCI), a control method for transferring the imagina...
Background. Stroke is the leading cause of serious and long-term disability worldwide. Survivors may...
Objective:Motor imagery (MI) is assumed to enhance poststroke motor recovery, yet its benefits are d...
In the past 3 decades, interest has increased in brain-computer interface (BCI) technology as a tool...
Brain-computer interfaces (BCIs) have recently been shown to be clinically effective as a novel meth...
Background. Recently, the brain-computer interface (BCI) has seen rapid development, which may promo...
Introduction: Motor Imagery (MI) was proposed to enhance motor recovery after stroke. EEG-based Brai...
Brain-computer interfaces (BCIs) provide a unique technological solution to circumvent the damaged m...
Background: Brain-Computer Interfaces (BCI) can potentially be used to aid in the recovery of lost m...
International audienceStroke is the leading cause of complex disability. Indeed, 40% of person suffe...
AbstractThe idea of using brain computer interfaces (BCI) for rehabilitation emerged relatively rece...
Stroke is a leading cause of long-term disability in the U.S. and does not have an effective cure ye...
Brain-computer interface (BCI) systems read and infer brain activity directly from the brain through...
International audienceBrain-Computer Interfaces (BCIs) process brain activity in real time, and medi...
(1) Objective: To investigate the feasibility, safety, and effectiveness of a brain–computer interfa...
Brain-computer-interface-based motor imagery (MI-BCI), a control method for transferring the imagina...