about
Local field potentials in primate motor cortex encode grasp kinetic parameters.Handling Metadata in a Neurophysiology Laboratory.State-space analysis of time-varying higher-order spike correlation for multiple neural spike train dataUnitary events in multiple single-neuron spiking activity: II. Nonstationary data.Switch from ambient to focal processing mode explains the dynamics of free viewing eye movements.Data-driven significance estimation for precise spike correlationDetecting synfire chains in parallel spike data.Estimating the contribution of assembly activity to cortical dynamics from spike and population measures.Noise suppression and surplus synchrony by coincidence detection.The local field potential reflects surplus spike synchrony.ASSET: Analysis of Sequences of Synchronous Events in Massively Parallel Spike TrainsDetection and Evaluation of Spatio-Temporal Spike Patterns in Massively Parallel Spike Train Data with SPADE.Mapping the spatio-temporal structure of motor cortical LFP and spiking activities during reach-to-grasp movementsSimilarity in Neuronal Firing Regimes across Mammalian SpeciesSynchronous Spike Patterns in Macaque Motor Cortex during an Instructed-Delay Reach-to-Grasp Task.Whisker barrel cortex delta oscillations and gamma power in the awake mouse are linked to respiration.Saccade-related modulations of neuronal excitability support synchrony of visually elicited spikes.Unsupervised classification of neocortical activity patterns in neonatal and pre-juvenile rodents.Detecting synfire chain activity using massively parallel spike train recording.Finding neural assemblies with frequent item set mining.CuBIC: cumulant based inference of higher-order correlations in massively parallel spike trains.Statistical evaluation of synchronous spike patterns extracted by frequent item set mining.Surrogate spike train generation through dithering in operational time.Different subtypes of striatal neurons are selectively modulated by cortical oscillations.Bistability, non-ergodicity, and inhibition in pairwise maximum-entropy models.Higher-order correlations in non-stationary parallel spike trains: statistical modeling and inference.Can spike coordination be differentiated from rate covariation?Effectiveness of systematic spike dithering depends on the precision of cortical synchronization.Complexity distribution as a measure for assembly size and temporal precision.Relating excess spike synchrony to LFP-locked firing rates modulations.Hybrid scheme for modeling local field potentials from point-neuron networks.Effect of cross-trial nonstationarity on joint-spike events.Viewing strategy of Cebus monkeys during free exploration of natural images.Neural correlates of odor learning in the honeybee antennal lobe.Long-term modifications in motor cortical dynamics induced by intensive practice.Hybrid Scheme for Modeling Local Field Potentials from Point-Neuron Networks.Spike synchronization and rate modulation differentially involved in motor cortical function.Modeling the spatial reach of the LFP.Dynamical changes and temporal precision of synchronized spiking activity in monkey motor cortex during movement preparation.Robustness of the significance of spike synchrony with respect to sorting errors.
P50
Q27306866-73FA083A-56E5-4C08-9CC8-072EFD6B11D6Q27314008-AE2BBDA0-9723-4D73-A852-14020FE19EBEQ30000858-1E1879AD-34AA-49E8-8009-00F479845F17Q30667119-1B12B88A-03D0-4F1D-8292-107D4E6C2B44Q30850553-A8E34A97-598D-4932-99AA-61A2D0916A47Q33398292-CF85F31D-DB57-45CF-98DE-F67E3B6F6832Q34169227-BC13DF98-69D9-4DD3-B94C-E3F1A9C7420BQ34300530-173535FA-1B61-4DCD-AEC8-C544E612A4B7Q34671650-D5938D30-7136-42DD-A839-B2DC52D58899Q35532981-79BB1326-BE0E-4966-A97E-26C685C8400EQ36078716-F038913B-9D7E-4CBB-8F50-623000B6C877Q36396462-707A4C58-FAB8-4165-BA85-C266261A1DDFQ36718569-E68DBCE0-D02B-49FC-985E-07595A97606DQ36932888-5682E357-2D95-4464-9F1E-C00003B23209Q37162703-0721F181-296B-44AC-8B90-B49D9600E5C5Q37706223-355AE20C-3146-4830-A6F9-9AF5D71AB37DQ38594777-54312C67-DC5D-4376-832C-4AECBE40A39AQ39949005-FB25BB81-EA3B-4CB2-8281-6C720CF84A04Q40069924-F121A52A-5103-4C4D-AAF3-8F0F509BA23FQ41245401-E4EF8254-5F22-4EBC-A166-C74010CD01B1Q41880595-0D7F5497-39FD-48B0-AF97-FC64CAEA45A6Q42108758-95A30E49-9B77-4C29-BC30-14DC07B703F7Q42382140-0B7A1CBB-8030-41E1-9BB4-02DFB5666C4CQ42451971-50304392-A784-4A0A-BCB0-BC7A65221AF8Q42685087-D2DB6A1C-2384-4387-81B4-BF5B0A2D7895Q42725349-389039C3-517C-4B32-BF03-2ED18A7E0ED9Q43691778-04370C33-7A64-4097-867F-5C8F471EA366Q44597132-41FF82D6-B4D8-4F3B-A7DD-E48CAEF0E936Q44633711-7F62F882-D737-4239-B544-4E850E509C4FQ46142559-4F8FA0E4-3E08-4A2E-9AB3-D972647ACB46Q46456441-6899EFB0-DE90-44C8-A657-FDBC75810B98Q47908301-3131DE00-BD4D-4FA2-8427-F03332BA2543Q48022559-58616431-8F15-450E-9E87-7534F277FD1CQ48331732-95857E98-8F19-4102-B349-1E766558AD58Q48439347-D1FA3F1B-AA3D-4769-B3E7-9EA1337C76E0Q48449712-D0CE002E-29F8-4F3E-BE33-699E553B4215Q48571624-D978E43E-35B2-4000-B60F-8CCCCB9D2D48Q48792774-23E92297-4C79-4D95-A999-097EC2703F3EQ49049708-E1FB9206-6153-4EA8-9008-64288B6D390FQ52930997-A813B857-BA4C-4EAC-9590-E8372C9C84EB
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
ricercatrice
@it
հետազոտող
@hy
name
Sonja Grün
@ast
Sonja Grün
@en
Sonja Grün
@es
Sonja Grün
@sl
type
label
Sonja Grün
@ast
Sonja Grün
@en
Sonja Grün
@es
Sonja Grün
@sl
prefLabel
Sonja Grün
@ast
Sonja Grün
@en
Sonja Grün
@es
Sonja Grün
@sl
P214
P244
P1053
I-6321-2013
P106
P1153
55908069200
P1556
grun.sonja
P21
P214
P244
no99007344
P31
P3829
P496
0000-0003-2829-2220
P735
P7859
lccn-no99007344