Self-organized criticality as a fundamental property of neural systems.
about
Functional connectivity in in vitro neuronal assembliesThe topology of large Open Connectome networks for the human brain.Repertoires of Spike Avalanches Are Modulated by Behavior and NoveltyTuning pathological brain oscillations with neurofeedback: a systems neuroscience framework.Criticality as a signature of healthy neural systemsStructural determinants of criticality in biological networks.Could a Neuroscientist Understand a Microprocessor?Self-organizing Complex Networks: individual versus global rules.Criticality predicts maximum irregularity in recurrent networks of excitatory nodes.More Severe Insomnia Complaints in People with Stronger Long-Range Temporal Correlations in Wake Resting-State EEG.Temporal profiles of avalanches on networks.Scale invariance in natural and artificial collective systems: a review.A model of individualized canonical microcircuits supporting cognitive operations.Critical and Supercritical Spatiotemporal Calcium Dynamics in Beta Cells.Inferring multi-scale neural mechanisms with brain network modelling.Neurofeedback Tunes Scale-Free Dynamics in Spontaneous Brain Activity.Mechanisms of self-organized criticality in social processes of knowledge creation.Answering Schrödinger's question: A free-energy formulation.Locating Order-Disorder Phase Transition in a Cardiac System.Biological modelling of a computational spiking neural network with neuronal avalanches.Power-law statistics and universal scaling in the absence of criticality.Optimization by Self-Organized Criticality.Global fluctuations of cerebral blood flow indicate a global brain network independent of systemic factors.Critical phenomena at a first-order phase transition in a lattice of glow lamps: Experimental findings and analogy to neural activity.Stochastic Oscillation in Self-Organized Critical States of Small Systems: Sensitive Resting State in Neural Systems.Supraspinal modulation of neuronal synchronization by nociceptive stimulation induces an enduring reorganization of dorsal horn neuronal connectivity.Catecholamines alter the intrinsic variability of cortical population activity and perception.Chaos and Correlated Avalanches in Excitatory Neural Networks with Synaptic Plasticity.Avalanche and edge-of-chaos criticality do not necessarily co-occur in neural networks.Quantum coherence-driven self-organized criticality and nonequilibrium light localization.Efficient Coding and Energy Efficiency Are Promoted by Balanced Excitatory and Inhibitory Synaptic Currents in Neuronal Network.Network Intervention, a Method to Address Complex Therapeutic StrategiesHomeostatic plasticity and emergence of functional networks in a whole-brain model at criticalityBeta-Rhythm Oscillations and Synchronization Transition in Network Models of Izhikevich Neurons: Effect of Topology and Synaptic Type
P2860
Q26779310-DB62149B-72DF-4D5F-B2B0-C818C06B764EQ27346559-AC18F30F-1187-4315-A30B-9D93403D3C31Q28602251-F7E8FAD0-292F-4867-8624-143C56BE27FEQ30421286-07295A4C-117B-4B3D-99E6-D24D7BDC43ABQ35120534-938FCE6C-5829-417D-8A70-25595B705571Q35584990-8305BD06-8C78-4FA3-A722-E946F1B0F896Q36247450-816B04A1-A66E-412C-A180-D06F213997C0Q40955125-A1783CDA-E766-4FAA-AF5D-48C9223D7D27Q41443861-38F6A03D-F625-4D23-A5A4-45F974BAA4AAQ41980658-044DA276-2471-4609-B862-7B46473226B6Q46344164-B20BF2FC-6B46-4B44-B2BF-5DEFBB3757AEQ47109566-5A3512AA-1A04-4376-AE4A-36AA428C8B38Q47110726-26CCB5A3-74CF-43C0-AEE4-524569C3879EQ47194551-60ABD933-7B17-43E6-900D-C57D0B5F0450Q47199156-E434528F-CB4B-4BAE-8738-8A46632A7097Q47399755-FC94960E-0826-4121-9D52-68AB7DC312B1Q47557572-FA2CE01C-4979-4470-B82E-3BF4F128E318Q47597892-12347ADF-0C77-4278-AFE1-6CC669A37333Q47638705-7EEB9F78-0279-478A-8E71-65F24DD66279Q47844265-641512C8-0C8F-4727-92E1-5FDFB7B7472BQ47969471-DEFE171C-1D9B-483B-8430-4BB096EE9DFCQ48103116-C9B09EFE-5474-4BEA-948B-EC8351DC71E4Q48151107-51124A67-4E3E-4037-A0DD-13AF0B4C5CF5Q48595013-F908380D-8E3F-4C62-A614-455DE484C06BQ48956242-964EEF41-0AB6-4A8A-BAA6-99AC8B43889AQ49937432-CD3717C0-BEBE-4914-8001-F6956A3A50DBQ50114576-0E38425A-5330-4566-A2C7-236746798155Q50792825-73A8EE06-8D0E-4DE5-A8DF-C627911C6A0CQ51564104-AA7C9F77-7433-4404-84A5-B900B7E63B8DQ52349500-19893098-28AA-4FB0-8179-69B54923F127Q55152167-45C40A33-84D1-4F24-BB7B-540424F22732Q57176283-E51F2712-39A1-40D3-AC25-44FF5F335ED6Q57794600-670BEF3A-E979-4E9B-A047-94D7034E5BE5Q58780985-688422C6-A9CC-4C87-B80A-619AD3EAA091
P2860
Self-organized criticality as a fundamental property of neural systems.
description
2014 nî lūn-bûn
@nan
2014年の論文
@ja
2014年学术文章
@wuu
2014年学术文章
@zh-cn
2014年学术文章
@zh-hans
2014年学术文章
@zh-my
2014年学术文章
@zh-sg
2014年學術文章
@yue
2014年學術文章
@zh
2014年學術文章
@zh-hant
name
Self-organized criticality as a fundamental property of neural systems.
@en
type
label
Self-organized criticality as a fundamental property of neural systems.
@en
prefLabel
Self-organized criticality as a fundamental property of neural systems.
@en
P2860
P356
P1476
Self-organized criticality as a fundamental property of neural systems.
@en
P2093
Janina Hesse
Thilo Gross
P2860
P356
10.3389/FNSYS.2014.00166
P577
2014-09-23T00:00:00Z