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Dynamic core-periphery structure of information sharing networks in entorhinal cortex and hippocampus
[article]
2020
bioRxiv
pre-print
Neural computation is associated with the emergence, reconfiguration and dissolution of cell assemblies in the context of varying oscillatory states. Here, we describe the complex spatio-temporal dynamics of cell assemblies through temporal network formalism. We use a sliding window approach to extract sequences of networks of information sharing among single units in hippocampus and enthorinal cortex during anesthesia and study how global and node-wise functional connectivity properties evolve
doi:10.1101/2020.01.17.910315
fatcat:buwfzsllqzgd3lo2cmr42nbp3y