Intrinsic timescales characterize dynamics of endogenous fluctuations in neural activity. Variation of intrinsic timescales across the neocortex reflects functional specialization of cortical areas, but less is known about how intrinsic timescales change during cognitive tasks. We measured intrinsic timescales of local spiking activity within columns of area V4 in male monkeys performing spatial attention tasks. The ongoing spiking activity unfolded across at least two distinct timescales, fast and slow. The slow timescale increased when monkeys attended to the receptive fields location and correlated with reaction times. By evaluating predictions of several network models, we found that spatiotemporal correlations in V4 activity were best ...
Neocortical activity is permeated with endogenously generated fluctuations, but how these dynamics a...
Specialization and hierarchy are organizing principles for primate cortex, yet there is little direc...
Visual selective attention prioritizes the processing of behaviorally relevant over irrelevant info...
Intrinsic timescales characterize dynamics of endogenous fluctuations in neural activity. Variation ...
Neural activity fluctuates endogenously on timescales varying across the neocortex. The variation in...
Neurons process information on different timescales across the neocortex that are related to the dyn...
Cortical dynamics unfold across multiple timescales reflecting networks’ specialization for task-rel...
Ongoing neural activity unfolds across different timescales reflecting networks’ specialization for ...
Ongoing cortical dynamics unfold across different temporal scales. These timescales reflect the netw...
Our brain continuously receives information over multiple timescales that are differently processed ...
An emerging view posits a timescale-based cortical topography, with integration windows increasing f...
Summary: Our brain continuously receives information over multiple timescales that are differently p...
Processing of sensory information depends on the interactions between hierarchically connected neoco...
Neural processing occurs across a range of temporal scales. To facilitate this, the brain uses fast-...
SummaryWe developed a large-scale dynamical model of the macaque neocortex, which is based on recent...
Neocortical activity is permeated with endogenously generated fluctuations, but how these dynamics a...
Specialization and hierarchy are organizing principles for primate cortex, yet there is little direc...
Visual selective attention prioritizes the processing of behaviorally relevant over irrelevant info...
Intrinsic timescales characterize dynamics of endogenous fluctuations in neural activity. Variation ...
Neural activity fluctuates endogenously on timescales varying across the neocortex. The variation in...
Neurons process information on different timescales across the neocortex that are related to the dyn...
Cortical dynamics unfold across multiple timescales reflecting networks’ specialization for task-rel...
Ongoing neural activity unfolds across different timescales reflecting networks’ specialization for ...
Ongoing cortical dynamics unfold across different temporal scales. These timescales reflect the netw...
Our brain continuously receives information over multiple timescales that are differently processed ...
An emerging view posits a timescale-based cortical topography, with integration windows increasing f...
Summary: Our brain continuously receives information over multiple timescales that are differently p...
Processing of sensory information depends on the interactions between hierarchically connected neoco...
Neural processing occurs across a range of temporal scales. To facilitate this, the brain uses fast-...
SummaryWe developed a large-scale dynamical model of the macaque neocortex, which is based on recent...
Neocortical activity is permeated with endogenously generated fluctuations, but how these dynamics a...
Specialization and hierarchy are organizing principles for primate cortex, yet there is little direc...
Visual selective attention prioritizes the processing of behaviorally relevant over irrelevant info...