Recent developments in EEG recording and signal processing have made it possible to record in an unconstrained, natural movement task, therefore EEG provides a promising approach to understanding the neural mechanisms of upper-limb reaching control. This study specifically addressed how EEG dynamics in the time domain encoded finger movement directions (directional tuning) and posture dependence (movement reference frames) by applying representational similarity analysis. High-density EEG covering the entire scalp was recorded while participants performed eight-directional, center-out reaching movements, thereby allowing us to explore directional selectivity of EEG sources over the brain beyond somatosensory areas. A majority of the source ...
Background The observation of action done by others determines a desynchronization of the rhythms...
<div><p>(A–D) Directional tuning during pole control (A), brain control with arm movements (tuning a...
How neural correlates of movements are represented in the human brain is of ongoing interest and has...
Recent developments in EEG recording and signal processing have made it possible to record in an unc...
Motor directional tuning (Georgopoulos et al., 1982) has been found in every brain area in which it ...
The discovery of directional tuned neurons in the primary motor cortex has advanced motor research i...
Neurons in macaque primary motor cortex and dorsal premotor cortex are tuned to movement direction. ...
Neurophysiological studies in monkeys show that activity of neurons in primary cortex (M1), pre-moto...
Reaching to a visual target requires the solution of the following spatial correspondence problem: T...
A number of electrophysiological studies have been conducted in recent years in order to clarify the...
The ability to control and adapt joint stiffness is essential in human motor control. Both control l...
The observation of action done by others determines a desynchronization of the rhythms recorded from...
Previous work in directional tuning for brain machine interfaces has primarily relied on algorithm s...
<div><p>Modulation of frontal midline theta (fmθ) is observed during error commission, but little is...
<div><h3>Background</h3><p>The observation of action done by others determines a desynchronization o...
Background The observation of action done by others determines a desynchronization of the rhythms...
<div><p>(A–D) Directional tuning during pole control (A), brain control with arm movements (tuning a...
How neural correlates of movements are represented in the human brain is of ongoing interest and has...
Recent developments in EEG recording and signal processing have made it possible to record in an unc...
Motor directional tuning (Georgopoulos et al., 1982) has been found in every brain area in which it ...
The discovery of directional tuned neurons in the primary motor cortex has advanced motor research i...
Neurons in macaque primary motor cortex and dorsal premotor cortex are tuned to movement direction. ...
Neurophysiological studies in monkeys show that activity of neurons in primary cortex (M1), pre-moto...
Reaching to a visual target requires the solution of the following spatial correspondence problem: T...
A number of electrophysiological studies have been conducted in recent years in order to clarify the...
The ability to control and adapt joint stiffness is essential in human motor control. Both control l...
The observation of action done by others determines a desynchronization of the rhythms recorded from...
Previous work in directional tuning for brain machine interfaces has primarily relied on algorithm s...
<div><p>Modulation of frontal midline theta (fmθ) is observed during error commission, but little is...
<div><h3>Background</h3><p>The observation of action done by others determines a desynchronization o...
Background The observation of action done by others determines a desynchronization of the rhythms...
<div><p>(A–D) Directional tuning during pole control (A), brain control with arm movements (tuning a...
How neural correlates of movements are represented in the human brain is of ongoing interest and has...