SummaryWe have used a new approach to study the neural decoding function that converts the population response in extrastriate area MT into estimates of target motion to drive smooth pursuit eye movement. Experiments reveal significant trial-by-trial correlations between the responses of MT neurons and the initiation of pursuit. The preponderance of significant correlations and the relatively low reduction in noise between MT and the behavioral output support the hypothesis of a sensory origin for at least some of the trial-by-trial variation in pursuit initiation. The finding of mainly positive MT-pursuit correlations, whether the target speed is faster or slower than the neuron’s preferred speed, places strong constraints on the neural de...
Neural activity in the frontal eye fields controls smooth pursuit eye movements, but the relationshi...
AbstractSmooth pursuit eye movements allow us to maintain the image of a moving target on the fovea....
The primate brain intelligently processes visual information from the world as the eyes move constan...
SummaryWe have used a new approach to study the neural decoding function that converts the populatio...
We have used a new approach to study the neural decoding function that converts the population respo...
For many behaviors we rely on our senses, which inform the brain about theworld around us, such as t...
Hohl et al. (2013) found that fluctuations in neuronal responses in the middle temporal area (MT) ar...
Sensory-motor behavior results from a complex interaction of noisy sensory data with priors based on...
SummaryNeural activity in the frontal eye fields controls smooth pursuit eye movements, but the rela...
Smooth-pursuit eye movements transform 100 ms of visual motion into a rapid initiation of smooth eye...
AbstractMany neurophysiological studies in monkeys have indicated that visual motion information for...
Bothperceptual andmotor systemsmustdecode visual information fromthedistributed activity of largepop...
Organisms’ behaviors and perceptions are shaped by the manner in which the brain processes incoming ...
SummarySmooth-pursuit eye velocity to a moving target is more accurate after an initial catch-up sac...
Analysis of the neural code for sensory-motor latency in smooth pursuit eye movements reveals genera...
Neural activity in the frontal eye fields controls smooth pursuit eye movements, but the relationshi...
AbstractSmooth pursuit eye movements allow us to maintain the image of a moving target on the fovea....
The primate brain intelligently processes visual information from the world as the eyes move constan...
SummaryWe have used a new approach to study the neural decoding function that converts the populatio...
We have used a new approach to study the neural decoding function that converts the population respo...
For many behaviors we rely on our senses, which inform the brain about theworld around us, such as t...
Hohl et al. (2013) found that fluctuations in neuronal responses in the middle temporal area (MT) ar...
Sensory-motor behavior results from a complex interaction of noisy sensory data with priors based on...
SummaryNeural activity in the frontal eye fields controls smooth pursuit eye movements, but the rela...
Smooth-pursuit eye movements transform 100 ms of visual motion into a rapid initiation of smooth eye...
AbstractMany neurophysiological studies in monkeys have indicated that visual motion information for...
Bothperceptual andmotor systemsmustdecode visual information fromthedistributed activity of largepop...
Organisms’ behaviors and perceptions are shaped by the manner in which the brain processes incoming ...
SummarySmooth-pursuit eye velocity to a moving target is more accurate after an initial catch-up sac...
Analysis of the neural code for sensory-motor latency in smooth pursuit eye movements reveals genera...
Neural activity in the frontal eye fields controls smooth pursuit eye movements, but the relationshi...
AbstractSmooth pursuit eye movements allow us to maintain the image of a moving target on the fovea....
The primate brain intelligently processes visual information from the world as the eyes move constan...