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Untangling Brain-Wide Dynamics in Consciousness by Cross-EmbeddingA Local Learning Rule for Independent Component Analysis.A theory of the transition to critical period plasticity: inhibition selectively suppresses spontaneous activity.Burst-time-dependent plasticity robustly guides ON/OFF segregation in the lateral geniculate nucleus.Generalized Bienenstock-Cooper-Munro rule for spiking neurons that maximizes information transmission.Modeling the dynamic interaction of Hebbian and homeostatic plasticity.Simultaneous silence organizes structured higher-order interactions in neural populationsUnsupervised feature learning from finite data by message passing: Discontinuous versus continuous phase transition.Locally embedded presages of global network bursts.Integrating Hebbian and homeostatic plasticity: the current state of the field and future research directions.Simultaneous Bayesian Estimation of Excitatory and Inhibitory Synaptic Conductances by Exploiting Multiple Recorded Trials.Clustering of neural code words revealed by a first-order phase transition.Whisker row deprivation affects the flow of sensory information through rat barrel cortex.Beyond the edge of chaos: amplification and temporal integration by recurrent networks in the chaotic regime.Equalization of ocular dominance columns induced by an activity-dependent learning rule and the maturation of inhibition.Inferring trial-to-trial excitatory and inhibitory synaptic inputs from membrane potential using Gaussian mixture Kalman filtering.State concentration exponent as a measure of quickness in Kauffman-type networks.Mean-field approximations for coupled populations of generalized linear model spiking neurons with Markov refractoriness.Optimality model of unsupervised spike-timing-dependent plasticity: synaptic memory and weight distribution.Advanced mean-field theory of the restricted Boltzmann machine.Error-Gated Hebbian Rule: A Local Learning Rule for Principal and Independent Component Analysis.A theory of how active behavior stabilises neural activity: Neural gain modulation by closed-loop environmental feedback.Spatial representations of self and other in the hippocampus.Learning with three factors: modulating Hebbian plasticity with errors.Structure of attractors in randomly connected networks.Optimal spike-timing-dependent plasticity for precise action potential firing in supervised learning.Nearly extensive sequential memory lifetime achieved by coupled nonlinear neurons.Calcineurin knockout mice show a selective loss of small spines.Emergence of Lévy Walks from Second-Order Stochastic Optimization.Bayesian inference explains perception of unity and ventriloquism aftereffect: identification of common sources of audiovisual stimuli.Blind Deconvolution of Hodgkin-Huxley neuronal model.Self-tuning of neural circuits through short-term synaptic plasticity.Fisher information for spike-based population decoding.Multi-context blind source separation by error-gated Hebbian ruleTheta Oscillations Alternate With High Amplitude Neocortical Population Within Synchronized StatesA Bayesian psychophysics model of sense of agencyRobust random search with scale-free stochastic resettingIntrinsic Spine Dynamics Are Critical for Recurrent Network Learning in Models With and Without Autism Spectrum Disorder
P50
Q27317313-0F249F82-9CBA-42E1-B34D-C89FEC912653Q27339152-8514EDFF-59A3-4DC2-9139-38904F3EB6BCQ30551945-63417ECC-FD9A-4726-90CB-F1636F68701FQ33521298-4310ADAC-4550-4B49-A43F-DC08677949C6Q33935038-894E691A-A86D-4865-8D40-9A69774DD855Q34469264-85FEABB6-A01E-4148-9CC1-013056174DC4Q35545766-0AE601F6-9CF8-451A-8D16-1623E504DE06Q36248578-8D8A0606-68C7-45CE-9C10-F7B3FD336FB1Q38639195-FC9D9BD9-0EC3-4A88-A5A3-1AD708FD0AAEQ38769764-8A426B7A-07B8-4161-ACD2-2348C8498493Q39170231-1D1399C0-3319-4106-A20B-24D9974C4260Q39602687-CC8CFC27-EA5C-433E-AB4A-18D2FC71AD16Q40635797-1A73D2DB-A46C-4942-9A27-11293AB1F115Q41430848-05960C96-40AE-49AF-80C2-30FB9D85648DQ42186781-55D11C4A-59B4-4C1D-9CAA-96EFC65572C6Q42580454-EF19A659-0940-4D04-86EE-4368F012FFA1Q46092014-40BA9D24-B009-45C4-830C-2B47728909A8Q46335649-6F0B548A-AE63-43AC-A374-EDCC98B432CDQ47301286-654FD75F-EFFA-4DC6-A2C9-483FE0972280Q47381669-313BA841-133E-4237-B901-2D8F8485598CQ47554579-DCB8F5CD-3F81-410B-948C-CEDFA65D53FAQ47727662-FDADA4E8-9EA0-4E1F-AFCF-545FF5D1AE8DQ47869074-E89A9123-A354-40C9-A554-56F2EBD7C181Q48109682-7B8F422A-382E-4814-8236-B20365D625FEQ48231136-8E9A3433-182E-4C71-800D-8EAFCFE02161Q48503620-3757AA35-F62B-4D9A-91F0-D46D3688939BQ48507632-990AEC00-8781-4DF3-9CB1-976AFEED4B45Q50087130-83F49D55-E362-415A-8F46-1E46AFE7AA91Q50178009-C377F8CF-8B17-4188-9643-7A81D673EF51Q50874757-CAC26BD7-CBB4-4D82-9E4E-DCBCCF7F3791Q51154231-B5194681-6F2C-4AC5-B674-2385054EDBAFQ51918247-E9DC4199-5180-4599-B343-6ADE05F937BEQ51931589-B8A63BBB-B9E5-457E-93C9-449C92C18C96Q64061218-F6E92C67-D6D1-47BA-8DEF-270E35F0C058Q64119112-4F7E7219-E9BD-4CCE-AAED-536BE7F6EBABQ90168090-A8D4A846-DC8F-422B-9209-5188B09DC862Q90876312-56D58100-E709-45F6-9198-2658D40C6009Q91531578-5A810BD7-41EF-4200-8548-953E87451160
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Taro Toyoizumi
@ast
Taro Toyoizumi
@en
Taro Toyoizumi
@es
Taro Toyoizumi
@nl
Taro Toyoizumi
@sl
type
label
Taro Toyoizumi
@ast
Taro Toyoizumi
@en
Taro Toyoizumi
@es
Taro Toyoizumi
@nl
Taro Toyoizumi
@sl
prefLabel
Taro Toyoizumi
@ast
Taro Toyoizumi
@en
Taro Toyoizumi
@es
Taro Toyoizumi
@nl
Taro Toyoizumi
@sl
P1053
G-5632-2015
P106
P1153
8380165100
P21
P31
P3829
P496
0000-0001-5444-8829
P569
2000-01-01T00:00:00Z