The role of competitive learning in the generation of DG fields from EC inputs. - Wikidata - wikimedia - TriplyDB

The role of competitive learning in the generation of DG fields from EC inputs.

The role of competitive learning in the generation of DG fields from EC inputs.

http://www.wikidata.org/entity/Q41953717

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Functional connectivity of the entorhinal-hippocampal space circuit Optimal population codes for space: grid cells outperform place cells Parallel computational subunits in dentate granule cells generate multiple place fields How informative are spatial CA3 representations established by the dentate gyrus?Hebbian analysis of the transformation of medial entorhinal grid-cell inputs to hippocampal place fields Beyond the bolus: transgenic tools for investigating the neurophysiology of learning and memory.Could adult hippocampal neurogenesis be relevant for human behavior?Memory storage fidelity in the hippocampal circuit: the role of subregions and input statistics Experience-dependent firing rate remapping generates directional selectivity in hippocampal place cells Spatial firing correlates of physiologically distinct cell types of the rat dentate gyrus.Cardiovascular Fitness and Cognitive Spatial Learning in Rodents and in Humans.Neuron-specific expression of tomosyn1 in the mouse hippocampal dentate gyrus impairs spatial learning and memory.What do grid cells contribute to place cell firing?The structure of networks that produce the transformation from grid cells to place cells Pattern separation in the hippocampus through the eyes of computational modeling.From grid cells to place cells with realistic field sizes.Locating and navigation mechanism based on place-cell and grid-cell models.Spatial representation along the proximodistal axis of CA1.The single place fields of CA3 cells: a two-stage transformation from grid cells.Spatial scale and place field stability in a grid-to-place cell model of the dorsoventral axis of the hippocampus New and distinct hippocampal place codes are generated in a new environment during septal inactivation.Grid cells require excitatory drive from the hippocampus.The medial and lateral entorhinal cortex both contribute to contextual and item recognition memory: a test of the binding of items and context model.A model for the differentiation between grid and conjunctive units in medial entorhinal cortex.Cognitive Mapping Based on Conjunctive Representations of Space and Movement.Spatial Representations of Granule Cells and Mossy Cells of the Dentate Gyrus.Physiological Properties and Behavioral Correlates of Hippocampal Granule Cells and Mossy Cells.Grid alignment in entorhinal cortex.Hippocampal Remapping and Its Entorhinal Origin.

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The role of competitive learning in the generation of DG fields from EC inputs.

http://www.wikidata.org/entity/Q41953717

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2009 nî lūn-bûn

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2009年の論文

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2009年論文

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2009年論文

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2009年论文

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The role of competitive learning in the generation of DG fields from EC inputs.

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The role of competitive learning in the generation of DG fields from EC inputs.

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Cognitive Neurodynamics

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Alessandro Treves

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Bailu Si

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P2860

Slowness and sparseness lead to place, head-direction, and spatial-view cells

The hippocampus as a spatial map. Preliminary evidence from unit activity in the freely-moving rat

Microstructure of a spatial map in the entorhinal cortex

Spatial representation in the entorhinal cortex

Hippocampal remapping and grid realignment in entorhinal cortex

Dentate gyrus NMDA receptors mediate rapid pattern separation in the hippocampal network

Major dissociation between medial and lateral entorhinal input to dorsal hippocampus.

Place units in the hippocampus of the freely moving rat.

Potential role for adult neurogenesis in the encoding of time in new memories.

An oscillatory interference model of grid cell firing.

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