Conversion of a phase- to a rate-coded position signal by a three-stage model of theta cells, grid cells, and place cells.
about
Intrinsic electrophysiological properties of entorhinal cortex stellate cells and their contribution to grid cell firing fieldsNeurophysiological and computational principles of cortical rhythms in cognitionFunctional correlates of the lateral and medial entorhinal cortex: objects, path integration and local-global reference framesSolving navigational uncertainty using grid cells on robotsEvaluation of the oscillatory interference model of grid cell firing through analysis and measured period variance of some biological oscillatorsAnalysis of slow (theta) oscillations as a potential temporal reference frame for information coding in sensory cortices.Information encoding and reconstruction from the phase of action potentialsCoupled noisy spiking neurons as velocity-controlled oscillators in a model of grid cell spatial firing.Universal conditions for exact path integration in neural systemsGrid cells and theta as oscillatory interference: electrophysiological data from freely moving ratsComputation by oscillations: implications of experimental data for theoretical models of grid cells.Theta modulation in the medial and the lateral entorhinal cortices.Intrinsic circuit organization and theta-gamma oscillation dynamics in the entorhinal cortex of the rat.Binding by asynchrony: the neuronal phase code.Grid cell firing properties vary as a function of theta phase locking preferences in the rat medial entorhinal cortex.Influence of boundary removal on the spatial representations of the medial entorhinal cortex.Grid cell firing patterns may arise from feedback interaction between intrinsic rebound spiking and transverse traveling waves with multiple heading anglesHow entorhinal grid cells may learn multiple spatial scales from a dorsoventral gradient of cell response rates in a self-organizing mapHead direction is coded more strongly than movement direction in a population of entorhinal neurons.A model combining oscillations and attractor dynamics for generation of grid cell firingVoltage dependence of subthreshold resonance frequency in layer II of medial entorhinal cortexCholinergic modulation of cognitive processing: insights drawn from computational modelsNeural representations of location composed of spatially periodic bands.Rebound spiking in layer II medial entorhinal cortex stellate cells: Possible mechanism of grid cell function.Cosine directional tuning of theta cell burst frequencies: evidence for spatial coding by oscillatory interference.Absence of Visual Input Results in the Disruption of Grid Cell Firing in the MouseModeling of grid cell activity demonstrates in vivo entorhinal 'look-ahead' properties.Phase coding by grid cells in unconstrained environments: two-dimensional phase precessionModels of place and grid cell firing and theta rhythmicityModels of grid cell spatial firing published 2005-2011Theta rhythm and the encoding and retrieval of space and time.Network mechanisms of grid cellsHow to build a grid cell.Neural mechanisms of self-location.Current questions on space and time encoding.Frequency of subthreshold oscillations at different membrane potential voltages in neurons at different anatomical positions on the dorsoventral axis in the rat medial entorhinal cortex.Sensory feedback, error correction, and remapping in a multiple oscillator model of place-cell activity.A hybrid oscillatory interference/continuous attractor network model of grid cell firing.Grid cells and theta as oscillatory interference: theory and predictions.Modelling effects on grid cells of sensory input during self-motion.
P2860
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P2860
Conversion of a phase- to a rate-coded position signal by a three-stage model of theta cells, grid cells, and place cells.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
Conversion of a phase- to a ra ...... , grid cells, and place cells.
@en
Conversion of a phase- to a ra ...... , grid cells, and place cells.
@nl
type
label
Conversion of a phase- to a ra ...... , grid cells, and place cells.
@en
Conversion of a phase- to a ra ...... , grid cells, and place cells.
@nl
prefLabel
Conversion of a phase- to a ra ...... , grid cells, and place cells.
@en
Conversion of a phase- to a ra ...... , grid cells, and place cells.
@nl
P2860
P356
P1433
P1476
Conversion of a phase- to a ra ...... , grid cells, and place cells.
@en
P2093
Kechen Zhang
Kishan Gupta
P2860
P304
P356
10.1002/HIPO.20509
P50
P577
2008-01-01T00:00:00Z