The ability to represent time is an essential component of cognition but its neural basis is unknown. Although extensively studied both behaviorally and electrophysiologically, a general theoretical framework describing the elementary neural mechanisms used by the brain to learn temporal representations is lacking. It is commonly believed that the underlying cellular mechanisms reside in high order cortical regions but recent studies show sustained neural activity in primary sensory cortices that can represent the timing of expected reward. Here, we show that local cortical networks can learn temporal representations through a simple framework predicated on reward dependent expression of synaptic plasticity. We assert that temporal represen...
SummaryAs a consequence of conditioning visual cues with delayed reward, cue-evoked neural activity ...
Recent experiments have shown that spike-timing-dependent plasticity is influenced by neuromodulatio...
Little is known about how the brain learns to anticipate the timing of reward. A new study demonstra...
The ability to represent time is an essential component of cognition but its neural basis is unknown...
The ability to represent time is an essential component of cognition but its neural basis is unknown...
textThe neural basis of the brain's ability to represent time, which is an essential component of co...
Little is known about how the brain learns to anticipate the timing of reward. A new study demonstr...
SummaryNeurons in rodent primary visual cortex (V1) relate operantly conditioned stimulus-reward int...
A wealth of experimental evidence suggests that working memory circuits preferentially represent inf...
Recent experiments have shown that neocortical synapses exhibit both short-term plasticity and spike...
Encoding time is universally required for learning and structuring motor and cognitive actions, but ...
The brain is tasked with creating representations of the external world. Often, these representation...
In this paper, we propose a reward-based learning model inspired by the findings from a behavioural ...
Reward-modulated spike-timing-dependent plasticity (STDP) has recently emerged as a candidate for a ...
Neurons in rodent primary visual cortex (V1) relate operantly conditioned stimulus-reward intervals ...
SummaryAs a consequence of conditioning visual cues with delayed reward, cue-evoked neural activity ...
Recent experiments have shown that spike-timing-dependent plasticity is influenced by neuromodulatio...
Little is known about how the brain learns to anticipate the timing of reward. A new study demonstra...
The ability to represent time is an essential component of cognition but its neural basis is unknown...
The ability to represent time is an essential component of cognition but its neural basis is unknown...
textThe neural basis of the brain's ability to represent time, which is an essential component of co...
Little is known about how the brain learns to anticipate the timing of reward. A new study demonstr...
SummaryNeurons in rodent primary visual cortex (V1) relate operantly conditioned stimulus-reward int...
A wealth of experimental evidence suggests that working memory circuits preferentially represent inf...
Recent experiments have shown that neocortical synapses exhibit both short-term plasticity and spike...
Encoding time is universally required for learning and structuring motor and cognitive actions, but ...
The brain is tasked with creating representations of the external world. Often, these representation...
In this paper, we propose a reward-based learning model inspired by the findings from a behavioural ...
Reward-modulated spike-timing-dependent plasticity (STDP) has recently emerged as a candidate for a ...
Neurons in rodent primary visual cortex (V1) relate operantly conditioned stimulus-reward intervals ...
SummaryAs a consequence of conditioning visual cues with delayed reward, cue-evoked neural activity ...
Recent experiments have shown that spike-timing-dependent plasticity is influenced by neuromodulatio...
Little is known about how the brain learns to anticipate the timing of reward. A new study demonstra...