AbstractIn this issue of Neuron, Uka and DeAngelis report a neural signature of the strategy that monkeys' brains developed to solve a visual discrimination task by training them on one version of the task and testing them on another. Extensive training on one version caused decision networks in the animals' brains to ignore certain classes of neurons whose signals would have been useful on the modified version of the task used to test them
Neurons in the basal ganglia (BG) of monkeys learning a simple visual discrimination (VD) task show ...
Visual function depends on the accuracy of signals carried by visual cortical neurons. Combining inf...
Hohl et al. (2013) found that fluctuations in neuronal responses in the middle temporal area (MT) ar...
AbstractIn this issue of Neuron, Uka and DeAngelis report a neural signature of the strategy that mo...
AbstractDue to the diversity of tuning properties in sensory cortex, only a fraction of neurons are ...
AbstractIn this issue of Neuron, Roelfsema and Spekreijse report that macaque V1 neuron responses ar...
SummaryThe processes underlying dynamic changes in human behavior during real situations contain muc...
SummaryMany monkeys adopt abstract response strategies as they learn to map visual symbols to respon...
Training can improve our ability to detect, discriminate or identify sensory stimuli. Despite the pr...
Intelligence is our ability to learn appropriate responses to new stimuli and situations. Neurons in...
Our understanding of the neurobiological underpinnings of learning and behavior relies on the use o...
During visually guided behavior, relevant information must be extracted from the environment. Which ...
We studied spike responses of V1 superficial layer neurons in a perceptual decision task. A rhesus m...
Perceptual learning, the improvement in perceptual abilities with training, is thought to be mediate...
The relationship between single neuronal activity in area MT and motion perception is a well studied...
Neurons in the basal ganglia (BG) of monkeys learning a simple visual discrimination (VD) task show ...
Visual function depends on the accuracy of signals carried by visual cortical neurons. Combining inf...
Hohl et al. (2013) found that fluctuations in neuronal responses in the middle temporal area (MT) ar...
AbstractIn this issue of Neuron, Uka and DeAngelis report a neural signature of the strategy that mo...
AbstractDue to the diversity of tuning properties in sensory cortex, only a fraction of neurons are ...
AbstractIn this issue of Neuron, Roelfsema and Spekreijse report that macaque V1 neuron responses ar...
SummaryThe processes underlying dynamic changes in human behavior during real situations contain muc...
SummaryMany monkeys adopt abstract response strategies as they learn to map visual symbols to respon...
Training can improve our ability to detect, discriminate or identify sensory stimuli. Despite the pr...
Intelligence is our ability to learn appropriate responses to new stimuli and situations. Neurons in...
Our understanding of the neurobiological underpinnings of learning and behavior relies on the use o...
During visually guided behavior, relevant information must be extracted from the environment. Which ...
We studied spike responses of V1 superficial layer neurons in a perceptual decision task. A rhesus m...
Perceptual learning, the improvement in perceptual abilities with training, is thought to be mediate...
The relationship between single neuronal activity in area MT and motion perception is a well studied...
Neurons in the basal ganglia (BG) of monkeys learning a simple visual discrimination (VD) task show ...
Visual function depends on the accuracy of signals carried by visual cortical neurons. Combining inf...
Hohl et al. (2013) found that fluctuations in neuronal responses in the middle temporal area (MT) ar...