about
What do the basal ganglia do? A modeling perspectiveReduction of conductance-based neuron modelsWhat is the biological basis of sensorimotor integration?A review of human sensory dynamics for application to models of driver steering and speed controlLearning to grasp and extract affordances: the Integrated Learning of Grasps and Affordances (ILGA) model.Selection of cortical dynamics for motor behaviour by the basal gangliaRelevance of nonlinear lumped-parameter models in the analysis of depth-EEG epileptic signalsLearning cortical topography from spatiotemporal stimuliAnalyzing the dynamics of hand tremor time seriesJulius Bernstein (1839-1917): pioneer neurobiologist and biophysicistAuto-association by multilayer perceptrons and singular value decompositionCoherent oscillations: a mechanism of feature linking in the visual cortex? Multiple electrode and correlation analyses in the catOn the significance of correlations among neuronal spike trainsA theoretical model of phase transitions in human hand movementsInternally coupled ears in living mammals.Integrating information from different senses in the auditory cortexPrehension synergies during nonvertical grasping, I: experimental observationsAffine differential geometry analysis of human arm movementsSynchrony, waves and ripple in spatially coupled Kuramoto oscillators with Mexican hat connectivityIntrinsic variability of latency to first-spikeEstimating parameters and predicting membrane voltages with conductance-based neuron models.The statistical relationship between connectivity and neural activity in fractionally connected feed-forward networks.Information maintenance and statistical dependence reduction in simple neural networks.Generalized dimension of the intersection between EEGs.A model of the feline medial gastrocnemius motoneuron-muscle system subjected to recurrent inhibition.A biologically motivated neural network for phase extraction from complex sounds.Optimization by stimulating molecular evolution.Thinking in circuits: toward neurobiological explanation in cognitive neuroscience.Inhibitory control of sensory gating in a computer model of the CA3 region of the hippocampus.Quantification of emotion by nonlinear analysis of the chaotic dynamics of electroencephalograms during perception of 1/f music.The formation of neural codes in the hippocampus: trace conditioning as a prototypical paradigm for studying the random recoding hypothesis.Sensory feedback mechanism underlying entrainment of central pattern generator to mechanical resonance.Walknet, a bio-inspired controller for hexapod walking.Jerk-cost modulations during the practice of rapid arm movements.A computational model for the modulation of the prepulse inhibition of the acoustic startle reflex.A model for intersegmental coordination in the leech nerve cord.Fundamental patterns of bilateral muscle activity in human locomotion.Modeling habituation in rat EEG-evoked responses via a neural mass model with feedback.The influence of limited presynaptic growth and synapse removal on adaptive synaptogenesis.Adaptive synaptogenesis constructs networks that maintain information and reduce statistical dependence.
P1433
Q22252706-71A6DBD4-DEE9-4220-9215-399E1DDBE59BQ22337372-21F875A8-464B-4281-9D25-88003B2179B8Q24618595-D8F2F37B-38DB-4E6D-852B-227DDCD52351Q26752995-CA14136F-4C3B-47B6-8BE2-349CE35B505EQ27321263-73ACD99D-D2FC-44FA-8DC1-847C841636E8Q27321288-412EA7A1-537E-4A10-9A13-DDD5A4E0BBF9Q28141694-BCF7A4C0-8919-44F2-BC16-425CDBD2BE58Q28144311-2B06B90F-000D-4454-88F4-0C3AF1D36A75Q28248151-F762A605-6407-4302-838A-1C348FB58724Q28286224-CCE8D03B-60A7-4FAD-862A-F6086DFA9DB1Q28292671-D169BDEC-7C75-41CF-A96D-BF2E8D41CAA0Q28293447-305E9579-97A7-465B-A8B1-65D749FFB455Q28297683-9B53065E-C8BC-4B26-8ECB-592B7F2202D6Q28307897-914D2C2B-C360-4EB8-BD7D-3697D84328ACQ28595894-BD9D50EA-C74B-45D9-91D3-D76986793C01Q28649425-3B045401-E913-4469-AF40-FD8EF451385AQ28748766-36CB6DFF-34B7-463C-B012-5547316F0338Q29012586-A9B18BA4-01F4-49FF-96A1-DFCA998A62BCQ29397948-F0B5CE22-B67E-4DED-93D2-30099E2D7811Q29999619-B22635AF-06C7-4493-ADBB-08D29B53C919Q30010594-D2556249-DB38-4DA2-BCFC-096944D03D76Q30303638-A8C9A589-C12A-4E6E-B33E-EADD2AFBF856Q30311466-D477165A-5184-4A39-8E10-7880A71C70A5Q30328720-45B508CE-A196-4BCB-825A-51BD15C0892DQ30333260-2D133D84-FFE6-4EA1-AF6D-476C50A51640Q30339080-3CBDB930-9BEB-43C3-ABEF-7255CFFEC651Q30405638-15627A64-5E01-400A-86A7-D0C47C7A48B9Q30425934-B9F56285-057F-4F4E-A49E-14F84C479887Q30430384-38E27AF6-055D-4748-A526-DDB0A39733CFQ30430602-F6C984B6-A704-4B01-AEF9-F2FA4F524E1FQ30437170-E9CB19E3-82AB-4C2D-8895-CE748E863124Q30439197-BA04AA3C-E99B-4BBB-9A10-D1E581E55292Q30449662-0F9F8927-0CFD-4361-A187-9F8C4518A7E5Q30458657-1B0472B5-B93A-4683-AF42-BA87A2F491A6Q30462525-604500D0-2263-4155-B8E5-F70294ADC800Q30462648-99142655-1967-4C24-99C6-35E9846AE21CQ30464169-F7FC90A0-C5AD-41A7-AF75-90D3C874E2F3Q30465532-64FB356A-5A76-4483-86C7-DBD1DED39340Q30465893-135E798D-7973-47D2-A6BB-459F566A5B90Q30467013-0A9BE816-581C-4246-B0F9-21E06DEECF4B
P1433
description
journal
@en
revista científica
@es
rivista scientifica
@it
wetenschappelijk tijdschrift van Springer Science+Business Media
@nl
wissenschaftliche Fachzeitschrift
@de
name
Biological Cybernetics
@ast
Biological Cybernetics
@da
Biological Cybernetics
@en
Biological Cybernetics
@es
Biological Cybernetics
@fi
Biological Cybernetics
@fr
Biological Cybernetics
@it
Biological Cybernetics
@nb
Biological Cybernetics
@nl
Biological Cybernetics
@nn
type
label
Biological Cybernetics
@ast
Biological Cybernetics
@da
Biological Cybernetics
@en
Biological Cybernetics
@es
Biological Cybernetics
@fi
Biological Cybernetics
@fr
Biological Cybernetics
@it
Biological Cybernetics
@nb
Biological Cybernetics
@nl
Biological Cybernetics
@nn
prefLabel
Biological Cybernetics
@ast
Biological Cybernetics
@da
Biological Cybernetics
@en
Biological Cybernetics
@es
Biological Cybernetics
@fi
Biological Cybernetics
@fr
Biological Cybernetics
@it
Biological Cybernetics
@nb
Biological Cybernetics
@nl
Biological Cybernetics
@nn
P3181
P1055
P1058
P1156
P1277
P1476
Biological Cybernetics: communication and control in organisms and automata
@en