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Models of Metaplasticity: A Review of ConceptsInhibitory synaptic plasticity: spike timing-dependence and putative network function.Goal-directed control with cortical units that are gated by both top-down feedback and oscillatory coherence.STDP allows fast rate-modulated coding with Poisson-like spike trainsSpectral analysis of input spike trains by spike-timing-dependent plasticity.Delay selection by spike-timing-dependent plasticity in recurrent networks of spiking neurons receiving oscillatory inputsEstimation of Directed Effective Connectivity from fMRI Functional Connectivity Hints at Asymmetries of Cortical ConnectomeEditorial: Emergent Neural Computation from the Interaction of Different Forms of PlasticityResting state networks in empirical and simulated dynamic functional connectivity.Coexistence of reward and unsupervised learning during the operant conditioning of neural firing rates.Excitatory and inhibitory STDP jointly tune feedforward neural circuits to selectively propagate correlated spiking activity.STDP in Recurrent Neuronal Networks.Erratum: Addendum: Models of Metaplasticity: A Review of Concepts.Stereotypical modulations in dynamic functional connectivity explained by changes in BOLD variance.Analysis of fMRI data using noise-diffusion network models: a new covariance-coding perspective.Emergence of network structure due to spike-timing-dependent plasticity in recurrent neuronal networks V: self-organization schemes and weight dependence.Task-related effective connectivity reveals that the cortical rich club gates cortex-wide communication.Effective connectivity inferred from fMRI transition dynamics during movie viewing points to a balanced reconfiguration of cortical interactions.Frequency selectivity emerging from spike-timing-dependent plasticity.Emergence of network structure due to spike-timing-dependent plasticity in recurrent neuronal networks. I. Input selectivity--strengthening correlated input pathways.Emergence of network structure due to spike-timing-dependent plasticity in recurrent neuronal networks III: Partially connected neurons driven by spontaneous activity.Emergence of network structure due to spike-timing-dependent plasticity in recurrent neuronal networks IV: structuring synaptic pathways among recurrent connections.Emergence of network structure due to spike-timing-dependent plasticity in recurrent neuronal networks. II. Input selectivity--symmetry breaking.Representation of input structure in synaptic weights by spike-timing-dependent plasticity.Spike-timing-dependent plasticity for neurons with recurrent connections.Extracting orthogonal subject- and condition-specific signatures from fMRI data using whole-brain effective connectivityEffective Connectivity in DepressionFramework based on communicability and flow to analyze complex network dynamicsNonparametric test for connectivity detection in multivariate autoregressive networks and application to multiunit activity dataEffective connectivity in autismImaging Connectomics and the Understanding of Brain DiseasesDistinct modes of functional connectivity induced by movie-watchingNetwork analysis of whole-brain fMRI dynamics: A new framework based on dynamic communicabilityBeyond the disconnectivity hypothesis of schizophreniaModel-based whole-brain effective connectivity to study distributed cognition in health and disease
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Q26776200-15B9632C-B4E2-4E01-90B4-5FE0E7B64E7BQ26865106-6C06F8C5-9F59-4A92-AD80-65AB0D7162D3Q34018518-DAFDC1F4-8DA5-400B-B864-84EB791C254FQ34064152-A2A8B4BC-E731-4A43-806F-035486646CB1Q34335478-55F204D1-15F7-4373-89BE-E66B64871171Q34585649-A2A1969E-82D6-4838-BA3C-5BA978DC5974Q35959303-C03096FB-3E92-4FE5-A1A3-32441FBC31EDQ36328753-0CEAB59F-579D-423E-8CD9-CB626216942CQ38637461-B210D057-67E7-49B5-BB70-38B807052D4AQ39261265-DF9FC146-A717-44ED-BFBD-CE6D8CB4DD00Q39573756-1BB359A5-86AB-48D0-88E2-C7997CF3C539Q42416084-6C1F0645-25DE-4AD4-85E5-54E32344A5B2Q43065175-85F4955E-B5E0-4709-9543-500C04D31C5EQ47222233-34DA3265-52EF-4CB4-9442-8DDA5F6F6A53Q47369261-CBC259AF-407F-44C0-B38C-E251864B3AB0Q47411816-C9FA5B2E-1549-4F1D-8561-D81A3E426403Q47924989-0730579A-53A8-49E7-8909-C5C63713B5A2Q48022019-32690225-4220-4DE7-BC36-F03F997AB94BQ48460253-4761A37E-9A7B-4484-B758-6FA723BAC506Q48564714-946BCFC5-A2EB-41D9-B794-0519B7E3777AQ51773461-925417ED-EC74-4021-A39D-5BB429952D34Q51773465-700769C9-7E65-441F-9550-B69F9C65572AQ51819436-7CBF512A-E43E-448F-B0FF-2BC35E4F0C7CQ51899239-D528124C-9E55-4B62-8AA7-6390FD1C10D6Q51917953-AE62DB8B-57E5-4132-BD52-A3AE49226674Q58778289-AA78AAE5-B0E0-464B-81DB-78CF53572FE7Q58880855-0F6C0933-9ADD-41E4-9E37-2E2A7B30122AQ89116689-2B59415C-0325-4480-9362-B95FF785CF66Q90846688-C293B513-6F06-485C-904B-54C381840D67Q90965648-BC2A80F0-9D75-4069-BBE9-8F2F110A0C23Q91202262-EB8D3183-302C-488A-8C1A-FF07E1404630Q91594564-35752FC8-008E-4FDC-9CDC-FAAE9F058B5DQ91890054-B6DE449E-DF99-4491-89C5-A0C31CB7B028Q92413514-E87FC37D-C168-4647-B77E-20E9FB4C4046Q96347211-AD8B880B-9BE6-4AAB-AAA3-D45C281701C7
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Matthieu Gilson
@ast
Matthieu Gilson
@en
Matthieu Gilson
@es
Matthieu Gilson
@sl
type
label
Matthieu Gilson
@ast
Matthieu Gilson
@en
Matthieu Gilson
@es
Matthieu Gilson
@sl
prefLabel
Matthieu Gilson
@ast
Matthieu Gilson
@en
Matthieu Gilson
@es
Matthieu Gilson
@sl
P106
P21
P2456
P2798
P31
P496
0000-0002-6726-7207