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Dynamic Control of Synchronous Activity in Networks of Spiking Neurons
2016
PLoS ONE
Oscillatory brain activity is believed to play a central role in neural coding. Accumulating evidence shows that features of these oscillations are highly dynamic: power, frequency and phase fluctuate alongside changes in behavior and task demands. The role and mechanism supporting this variability is however poorly understood. We here analyze a network of recurrently connected spiking neurons with time delay displaying stable synchronous dynamics. Using mean-field and stability analyses, we
doi:10.1371/journal.pone.0161488
pmid:27669018
pmcid:PMC5036852
fatcat:lrf65rbrx5cg5ccrp75cohr32q