Background Hand rehabilitation is core to hel** stroke survivors regain activities of daily
living. Recent studies have suggested that the use of electroencephalography-based brain …

Neuroengineering research over the last two decades has demonstrated promising
evidence on the use of brain-computer interface (BCI) to enhance functional recovery and …

Brain–computer interfaces (BCIs) are a new technology that subverts traditional human–
computer interaction, where the control signal source comes directly from the user's brain …

Robots are effective tools for aiding in the restoration of hand function through rehabilitation
programs or by providing in-task assistance. To date, a multitude of exoskeletal devices …

Brain-computer interfaces (BCIs) provide a unique technological solution to circumvent the
damaged motor system. For neurorehabilitation, the BCI can be used to translate neural …

Introduction The growing number of stroke survivors with residual hand disabilities requires
the development of efficient recovery therapy, and robotic rehabilitation can play an …

One innovation currently influencing physical medicine and rehabilitation is brain–computer
interface (BCI) technology. BCI systems used for motor control record neural activity …

Stroke survivors can be affected by motor deficits in the hand. Robotic equipment associated
with brain–machine interfaces (BMI) may aid the motor rehabilitation of these patients. BMIs …

This paper proposes a wearable hand rehabilitation robot for assisting patients to do
rehabilitation training such as the flexion and extension of fingers. This robot prototype has a …

Introduction Robotic therapy allow to propose sessions of controlled and identical exercises,
customizing settings, and characteristics on the individual patient. The effectiveness of …