In a proof-of-principle prototypical demonstration we describe a new type of brain-machine interface (BMI) paradigm for upper limb motor training. The proposed technique allows a fast contingent and proportionally modulated stimulation of afferent proprioceptive and motor output neural pathways using operant learning.Continuous and immediate assisted-feedback of force proportional to rolandic rhythm oscillations during actual movements was employed and illustrated with a single case experiment. One hemiplegic patient was trained for two weeks coupling somatosensory brain oscillations with force field control during a robot mediated centre-out motor task whose execution approaches movements of everyday life. The robot facilitated actual move...
Brain-machine interfaces (BMI) based on motor imagery (MI) have emerged as a promising approach to e...
Background Recent studies have shown that brain-machine interfaces (BMIs) offer great potential for...
Proprioception has a crucial role in promoting or hindering motor learning. In particular, an intact...
In a proof-of-principle prototypical demonstration we describe a new type of brain-machine interface...
The Brain Computer Interface platform described in this paper was implemented to enhance neuroplasti...
International audienceBrain Machine Interfaces (BMI) have become of interest during the past years. ...
Motor rehabilitation from stroke injury is of topic importance nowadays that neurological diseases h...
BACKGROUND: Neurofeedback training is a closed-loop neuromodulatory technique in which real-time fee...
Objective: Brain-machine interfaces (BMIs) are useful for inducing plastic changes in cortical repre...
<p>Objective: Brain-machine interfaces (BMIs) are useful for inducing plastic changes in cortical re...
Brain-Machine Interfaces (BMIs) have the potential of restoring functionality of persons suffering f...
In many robot-assisted rehabilitation and motor skill learning applications, robots generate forces ...
<div><p>Non-invasive Brain-Machine Interfaces (BMIs) are being used more and more these days to desi...
Proprioception has a crucial role in promoting or hindering motor learning. In particular, an intact...
We advocate online modification of robot-assisted task speed, based on continuously inferred motor i...
Brain-machine interfaces (BMI) based on motor imagery (MI) have emerged as a promising approach to e...
Background Recent studies have shown that brain-machine interfaces (BMIs) offer great potential for...
Proprioception has a crucial role in promoting or hindering motor learning. In particular, an intact...
In a proof-of-principle prototypical demonstration we describe a new type of brain-machine interface...
The Brain Computer Interface platform described in this paper was implemented to enhance neuroplasti...
International audienceBrain Machine Interfaces (BMI) have become of interest during the past years. ...
Motor rehabilitation from stroke injury is of topic importance nowadays that neurological diseases h...
BACKGROUND: Neurofeedback training is a closed-loop neuromodulatory technique in which real-time fee...
Objective: Brain-machine interfaces (BMIs) are useful for inducing plastic changes in cortical repre...
<p>Objective: Brain-machine interfaces (BMIs) are useful for inducing plastic changes in cortical re...
Brain-Machine Interfaces (BMIs) have the potential of restoring functionality of persons suffering f...
In many robot-assisted rehabilitation and motor skill learning applications, robots generate forces ...
<div><p>Non-invasive Brain-Machine Interfaces (BMIs) are being used more and more these days to desi...
Proprioception has a crucial role in promoting or hindering motor learning. In particular, an intact...
We advocate online modification of robot-assisted task speed, based on continuously inferred motor i...
Brain-machine interfaces (BMI) based on motor imagery (MI) have emerged as a promising approach to e...
Background Recent studies have shown that brain-machine interfaces (BMIs) offer great potential for...
Proprioception has a crucial role in promoting or hindering motor learning. In particular, an intact...