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A model for spatially periodic firing in the hippocampal formation based on interacting excitatory and inhibitory plasticity

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Example for the emergence of a grid cell. Columns from left to right: Spatial tuning of excitatory and inhibitory inputs (two examples each); spatial activity pattern of the output neuron before and after learning; auto-correlogram of activity after learning.
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Figure 1: Example for the emergence of a grid cell. Columns from left to right: Spatial tuning of excitatory and inhibitory inputs (two examples each); spatial activity pattern of the output neuron before and after learning; auto-correlogram of activity after learning.


A model for spatially periodic firing in the hippocampal formation based on interacting excitatory and inhibitory plasticity
Example for the emergence of a grid cell. Columns from left to right: Spatial tuning of excitatory and inhibitory inputs (two examples each); spatial activity pattern of the output neuron before and after learning; auto-correlogram of activity after learning.
© Copyright Policy - open-access
Related In: Results  -  Collection

License 1 - License 2
Show All Figures
getmorefigures.php?uid=PMC4697637&req=5

Figure 1: Example for the emergence of a grid cell. Columns from left to right: Spatial tuning of excitatory and inhibitory inputs (two examples each); spatial activity pattern of the output neuron before and after learning; auto-correlogram of activity after learning.

View Article: PubMed Central - HTML

No MeSH data available.