Cerebral cortical representation of motor kinematics is crucial for understanding human motor behavior, potentially extending to efficient control of the brain-computer interface. Numerous single-neuron studies have found the existence of a relationship between neuronal activity and motor kinematics such as acceleration, velocity, and position. Despite differences between kinematic characteristics, it is hard to distinguish neural representations of these kinematic characteristics with macroscopic functional images such as electroencephalography (EEG) and magnetoencephalography (MEG). The reason might be because cortical signals are not sensitive enough to segregate kinematic characteristics due to their limited spatial and temporal resolut...
We used functional magnetic resonance imaging (fMRI) to map the cortical representations of executed...
While there have been several studies investigating the neural correlates of action observation asso...
Sensory information such as vision is essential to make movements. Primary motor cortex (M1) is conn...
The current neural interface technology opens a new window for collecting multi-site streams of the ...
The discovery of directional tuned neurons in the primary motor cortex has advanced motor research i...
We propose a biologically realistic neural network that computes coordinate transformations for the ...
Objective. Neural signals can be decoded and used to move neural prostheses with the purpose of rest...
To explore the possible cortical mechanisms underlying the 3-dimensional (3D) visuomotor transformat...
Motor information conveyed by viewing the kinematics of an agent's action helps to predict how the a...
sentation of speed and direction during reaching. J. Neurophysiol. 82: 2676–2692, 1999. The motor co...
International audienceVisually-guided arm reaching movements are produced by distributed neural netw...
Animals use vision to traverse novel cluttered environments with apparent ease. Evidence suggests th...
To explore the possible cortical mechanisms underlying the 3-dimensional (3D) visuomotor transformat...
In the last few years, anatomical and physiological studies have provided new insights into the orga...
In the last few years, anatomical and physiological studies have provided new insights into the orga...
We used functional magnetic resonance imaging (fMRI) to map the cortical representations of executed...
While there have been several studies investigating the neural correlates of action observation asso...
Sensory information such as vision is essential to make movements. Primary motor cortex (M1) is conn...
The current neural interface technology opens a new window for collecting multi-site streams of the ...
The discovery of directional tuned neurons in the primary motor cortex has advanced motor research i...
We propose a biologically realistic neural network that computes coordinate transformations for the ...
Objective. Neural signals can be decoded and used to move neural prostheses with the purpose of rest...
To explore the possible cortical mechanisms underlying the 3-dimensional (3D) visuomotor transformat...
Motor information conveyed by viewing the kinematics of an agent's action helps to predict how the a...
sentation of speed and direction during reaching. J. Neurophysiol. 82: 2676–2692, 1999. The motor co...
International audienceVisually-guided arm reaching movements are produced by distributed neural netw...
Animals use vision to traverse novel cluttered environments with apparent ease. Evidence suggests th...
To explore the possible cortical mechanisms underlying the 3-dimensional (3D) visuomotor transformat...
In the last few years, anatomical and physiological studies have provided new insights into the orga...
In the last few years, anatomical and physiological studies have provided new insights into the orga...
We used functional magnetic resonance imaging (fMRI) to map the cortical representations of executed...
While there have been several studies investigating the neural correlates of action observation asso...
Sensory information such as vision is essential to make movements. Primary motor cortex (M1) is conn...