To explore the possible cortical mechanisms underlying the 3-dimensional (3D) visuomotor transformation for reaching, we trained a 4-layer feed-forward artificial neural network to compute a reach vector (output) from the visual positions of both the hand and target viewed from different eye and head orientations (inputs). The emergent properties of the intermediate layers reflected several known neurophysiological findings, for example, gain field--like modulations and position-dependent shifting of receptive fields (RFs). We performed a reference frame analysis for each individual network unit, simulating standard electrophysiological experiments, that is, RF mapping (unit input), motor field mapping, and microstimulation effects (unit ou...
Contains fulltext : 64567.pdf (publisher's version ) (Closed access)Eye–hand coord...
Objective. Neural signals can be decoded and used to move neural prostheses with the purpose of rest...
Coding of reaching in the cerebral cortex is based on the operation of distributed populations of pa...
To explore the possible cortical mechanisms underlying the 3-dimensional (3D) visuomotor transformat...
To explore the possible cortical mechanisms underlying the 3-dimensional (3D) visuomotor transformat...
We effortlessly perform reach movements to objects in different directions and depths. However, how ...
We effortlessly perform reach movements to objects in different directions and depths. However, how ...
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 propose a biologically realistic neural network that computes coordinate transformations for the ...
Cerebral cortical representation of motor kinematics is crucial for understanding human motor behavi...
Contains fulltext : 77571.pdf ( ) (Open Access)Many interactions with the world ar...
Recent studies of visually guided reaching in monkeys support the hypothesis that the visuomotor tra...
Summary: The posterior parietal cortex is well known to mediate sensorimotor transformations during ...
SummaryA gain field, the scaling of a tuned neuronal response by a postural signal, may help support...
Contains fulltext : 64567.pdf (publisher's version ) (Closed access)Eye–hand coord...
Objective. Neural signals can be decoded and used to move neural prostheses with the purpose of rest...
Coding of reaching in the cerebral cortex is based on the operation of distributed populations of pa...
To explore the possible cortical mechanisms underlying the 3-dimensional (3D) visuomotor transformat...
To explore the possible cortical mechanisms underlying the 3-dimensional (3D) visuomotor transformat...
We effortlessly perform reach movements to objects in different directions and depths. However, how ...
We effortlessly perform reach movements to objects in different directions and depths. However, how ...
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 propose a biologically realistic neural network that computes coordinate transformations for the ...
Cerebral cortical representation of motor kinematics is crucial for understanding human motor behavi...
Contains fulltext : 77571.pdf ( ) (Open Access)Many interactions with the world ar...
Recent studies of visually guided reaching in monkeys support the hypothesis that the visuomotor tra...
Summary: The posterior parietal cortex is well known to mediate sensorimotor transformations during ...
SummaryA gain field, the scaling of a tuned neuronal response by a postural signal, may help support...
Contains fulltext : 64567.pdf (publisher's version ) (Closed access)Eye–hand coord...
Objective. Neural signals can be decoded and used to move neural prostheses with the purpose of rest...
Coding of reaching in the cerebral cortex is based on the operation of distributed populations of pa...