SummaryVolitional behavior relies on the brain's ability to remap sensory flow to motor programs whenever demanded by a changed behavioral context. To investigate the circuit basis of such flexible behavior, we have developed a biophysically based decision-making network model of spiking neurons for arbitrary sensorimotor mapping. The model quantitatively reproduces behavioral and prefrontal single-cell data from an experiment in which monkeys learn visuomotor associations that are reversed unpredictably from time to time. We show that when synaptic modifications occur on multiple timescales, the model behavior becomes flexible only when needed: slow components of learning usually dominate the decision process. However, if behavioral contex...
Ongoing neural activity unfolds across different timescales reflecting networks’ specialization for ...
International audienceThe principles underlying the organization and operation of the prefrontal cor...
Intelligence is our ability to learn appropriate responses to new stimuli and situations. Neurons in...
SummaryVolitional behavior relies on the brain's ability to remap sensory flow to motor programs whe...
According to a prominent view of sensorimotor processing in primates, selection and specification of...
n learning from trial and error, animals need to relate behavioral decisions to environmental reinfo...
Given the complex structure of the brain, how can synaptic plasticity explain the learning and forge...
Previous studies support the notion that sensorimotor learning involves multiple processes. We inves...
How do neurons in a decision circuit integrate time-varying signals, in favor of or against alternat...
One influential hypothesis in neuroscience holds that the nervous system learns statistical regulari...
Animals are proposed to learn the latent rules governing their environment in order to maximize thei...
Animals can quickly learn to make appropriate decisions according to their environment that can chan...
© 2018 Elsevier Inc. Neural mechanisms that support flexible sensorimotor computations are not well ...
Humans have a remarkable capacity to learn new motor behaviours without forgetting old ones. This ca...
Item does not contain fulltextThe mechanisms of decision-making and action selection are generally t...
Ongoing neural activity unfolds across different timescales reflecting networks’ specialization for ...
International audienceThe principles underlying the organization and operation of the prefrontal cor...
Intelligence is our ability to learn appropriate responses to new stimuli and situations. Neurons in...
SummaryVolitional behavior relies on the brain's ability to remap sensory flow to motor programs whe...
According to a prominent view of sensorimotor processing in primates, selection and specification of...
n learning from trial and error, animals need to relate behavioral decisions to environmental reinfo...
Given the complex structure of the brain, how can synaptic plasticity explain the learning and forge...
Previous studies support the notion that sensorimotor learning involves multiple processes. We inves...
How do neurons in a decision circuit integrate time-varying signals, in favor of or against alternat...
One influential hypothesis in neuroscience holds that the nervous system learns statistical regulari...
Animals are proposed to learn the latent rules governing their environment in order to maximize thei...
Animals can quickly learn to make appropriate decisions according to their environment that can chan...
© 2018 Elsevier Inc. Neural mechanisms that support flexible sensorimotor computations are not well ...
Humans have a remarkable capacity to learn new motor behaviours without forgetting old ones. This ca...
Item does not contain fulltextThe mechanisms of decision-making and action selection are generally t...
Ongoing neural activity unfolds across different timescales reflecting networks’ specialization for ...
International audienceThe principles underlying the organization and operation of the prefrontal cor...
Intelligence is our ability to learn appropriate responses to new stimuli and situations. Neurons in...