The oscillatory suppression of sensorimotor-mu power (i.e., 10-12 Hz) is a robust EEG correlate of motor control. Simply imagining voluntary limb movement can result in consistent suppression of mu-power, especially in contralateral electrode sites. This is typically exploited by neuroprostheses (e.g., BCI-controlled wheelchairs; Huang et al., 2012) that seek to restore movement to spinal-cord injury patients. In some examples, levels of mu-suppression have also been treated as an index of motor control effort (e.g., Mann et al., 1996). However, mu-suppression in contralateral sites can also be observed during passive limb movements, namely in the absence of voluntary control effort (Formaggio et al., 2013). In this study, we investigate wh...
The sensorimotor cortex is a frequently targeted brain area for the development of Brain-Computer In...
The sensorimotor cortex is a frequently targeted brain area for the development of Brain-Computer In...
An understanding of how locomotion occurs can help prevent or possibly restore its loss. Observation...
The oscillatory suppression of sensorimotor-mu power (i.e., 10-12 Hz) is a robust EEG correlate of m...
Physiological mirror activity (pMA), observed in healthy human adults, describes the involuntary co-...
The ability to control and adapt joint stiffness is essential in human motor control. Both control l...
Background: Electroencephalogram (EEG)-based brain-computer interfaces (BCI) represent a promising c...
A consistent finding in motor EEG research is a bilateral attenuation of oscillatory activity over s...
Movement-related cortical activity associated with the limb ipsilateral to a given cerebral hemisphe...
Passive and imagined limb movements induce changes in cerebral oscillatory activity. Central modulat...
Mu suppression has been proposed as a signature of the activity of the human mirror neuron system. H...
Low-frequency peripheral electrical stimulation using a matrix electrode (PEMS) modulates spinal noc...
Voluntary actions are often accompanied by a conscious experience of intention. The content of this ...
Beta and gamma oscillations have long been associated with motor control, with beta generally assume...
Neural priming and facilitation phenomena have been observed in sensorimotor cortical regions during...
The sensorimotor cortex is a frequently targeted brain area for the development of Brain-Computer In...
The sensorimotor cortex is a frequently targeted brain area for the development of Brain-Computer In...
An understanding of how locomotion occurs can help prevent or possibly restore its loss. Observation...
The oscillatory suppression of sensorimotor-mu power (i.e., 10-12 Hz) is a robust EEG correlate of m...
Physiological mirror activity (pMA), observed in healthy human adults, describes the involuntary co-...
The ability to control and adapt joint stiffness is essential in human motor control. Both control l...
Background: Electroencephalogram (EEG)-based brain-computer interfaces (BCI) represent a promising c...
A consistent finding in motor EEG research is a bilateral attenuation of oscillatory activity over s...
Movement-related cortical activity associated with the limb ipsilateral to a given cerebral hemisphe...
Passive and imagined limb movements induce changes in cerebral oscillatory activity. Central modulat...
Mu suppression has been proposed as a signature of the activity of the human mirror neuron system. H...
Low-frequency peripheral electrical stimulation using a matrix electrode (PEMS) modulates spinal noc...
Voluntary actions are often accompanied by a conscious experience of intention. The content of this ...
Beta and gamma oscillations have long been associated with motor control, with beta generally assume...
Neural priming and facilitation phenomena have been observed in sensorimotor cortical regions during...
The sensorimotor cortex is a frequently targeted brain area for the development of Brain-Computer In...
The sensorimotor cortex is a frequently targeted brain area for the development of Brain-Computer In...
An understanding of how locomotion occurs can help prevent or possibly restore its loss. Observation...