Neuronal avalanches differ from wakefulness to deep sleep--evidence from intracranial depth recordings in humans.
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The entropic brain: a theory of conscious states informed by neuroimaging research with psychedelic drugsRepertoires of Spike Avalanches Are Modulated by Behavior and NoveltyNetwork-timing-dependent plasticity.Undersampled critical branching processes on small-world and random networks fail to reproduce the statistics of spike avalanches.Neocortical activity is stimulus- and scale-invariant.Spontaneous cortical activity is transiently poised close to criticalitySpike avalanches in vivo suggest a driven, slightly subcritical brain state.Avalanches in self-organized critical neural networks: a minimal model for the neural SOC universality class.Emergence of rich-club topology and coordinated dynamics in development of hippocampal functional networks in vitro.Irregular spiking of pyramidal neurons organizes as scale-invariant neuronal avalanches in the awake state.Griffiths phases and localization in hierarchical modular networks.Large-scale signatures of unconsciousness are consistent with a departure from critical dynamics.Analysis of Power Laws, Shape Collapses, and Neural Complexity: New Techniques and MATLAB Support via the NCC ToolboxBreakdown of long-range temporal dependence in default mode and attention networks during deep sleep.Criticality Maximizes Complexity in Neural Tissue.Fading signatures of critical brain dynamics during sustained wakefulness in humans.Self-organized criticality as a fundamental property of neural systems.Assessing levels of consciousness with symbolic analysis.Behavioral state classification in epileptic brain using intracranial electrophysiology.Local active information storage as a tool to understand distributed neural information processing.Subsampling scaling.Nonlinear dynamics analysis of a self-organizing recurrent neural network: chaos waning.More Severe Insomnia Complaints in People with Stronger Long-Range Temporal Correlations in Wake Resting-State EEG.Discrete Scale Invariance of Human Large EEG Voltage Deflections is More Prominent in Waking than Sleep Stage 2.Self-organized dynamical complexity in human wakefulness and sleep: different critical brain-activity feedback for conscious and unconscious states.Critical role for resource constraints in neural models.Quantifying the distance to criticality under subsampling.Self-organization to sub-criticality.Self-organization of information processing in developing neuronal networks.Connectome-harmonic decomposition of human brain activity reveals dynamical repertoire re-organization under LSD.Critical and Supercritical Spatiotemporal Calcium Dynamics in Beta Cells.Correlated microtiming deviations in jazz and rock music.Coexistence of critical sensitivity and subcritical specificity can yield optimal population coding.Quasicritical brain dynamics on a nonequilibrium Widom line.Catecholamines alter the intrinsic variability of cortical population activity and perception.Transfer entropy in continuous time, with applications to jump and neural spiking processes.Can a time varying external drive give rise to apparent criticality in neural systems?Inferring collective dynamical states from widely unobserved systems.Homeostatic plasticity and emergence of functional networks in a whole-brain model at criticalityGlobal and local complexity of intracranial EEG decreases during NREM sleep
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P2860
Neuronal avalanches differ from wakefulness to deep sleep--evidence from intracranial depth recordings in humans.
description
2013 nî lūn-bûn
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2013 թուականի Մարտին հրատարակուած գիտական յօդուած
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2013 թվականի մարտին հրատարակված գիտական հոդված
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2013年の論文
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2013年論文
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2013年論文
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2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
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2013年论文
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name
Neuronal avalanches differ fro ...... al depth recordings in humans.
@ast
Neuronal avalanches differ fro ...... al depth recordings in humans.
@en
Neuronal avalanches differ fro ...... al depth recordings in humans.
@nl
type
label
Neuronal avalanches differ fro ...... al depth recordings in humans.
@ast
Neuronal avalanches differ fro ...... al depth recordings in humans.
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Neuronal avalanches differ fro ...... al depth recordings in humans.
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Neuronal avalanches differ fro ...... al depth recordings in humans.
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Neuronal avalanches differ fro ...... al depth recordings in humans.
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Neuronal avalanches differ fro ...... al depth recordings in humans.
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P2860
P50
P1476
Neuronal avalanches differ fro ...... al depth recordings in humans.
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P2093
Michel Le Van Quyen
P2860
P304
P356
10.1371/JOURNAL.PCBI.1002985
P577
2013-03-21T00:00:00Z