Transition to synchronization in heterogeneous inhibitory neural networks with structured synapses
E Urdapilleta - Chaos: An Interdisciplinary Journal of Nonlinear …, 2021 - pubs.aip.org
Inhibitory neurons form an extensive network involved in the development of different
rhythms in the cerebral cortex. A transition from an incoherent state, where all inhibitory …
rhythms in the cerebral cortex. A transition from an incoherent state, where all inhibitory …
[PDF][PDF] Transition to synchronization in heterogeneous inhibitory neural networks with structured synapses
E Urdapilleta - researchgate.net
Inhibitory neuronal networks are fundamental for the development of characteristic brain
rhythms. Under certain circumstances, such rhythms are disrupted or their power is …
rhythms. Under certain circumstances, such rhythms are disrupted or their power is …
Transition to synchronization in heterogeneous inhibitory neural networks with structured synapses
E Urdapilleta - Chaos: An Interdisciplinary Journal of Nonlinear …, 2021 - pubs.aip.org
Inhibitory neurons form an extensive network involved in the development of different
rhythms in the cerebral cortex. A transition from an incoherent state, where all inhibitory …
rhythms in the cerebral cortex. A transition from an incoherent state, where all inhibitory …
Transition to synchronization in heterogeneous inhibitory neural networks with structured synapses
E Urdapilleta - 2021 - notablesdelaciencia.conicet.gov.ar
Inhibitory neurons form an extensive network involved in the development of different
rhythms in the cerebral cortex. A transition from an incoherent state, where all inhibitory …
rhythms in the cerebral cortex. A transition from an incoherent state, where all inhibitory …
Transition to synchronization in heterogeneous inhibitory neural networks with structured synapses
E Urdapilleta - Chaos, 2021 - ui.adsabs.harvard.edu
Inhibitory neurons form an extensive network involved in the development of different
rhythms in the cerebral cortex. A transition from an incoherent state, where all inhibitory …
rhythms in the cerebral cortex. A transition from an incoherent state, where all inhibitory …
Transition to synchronization in heterogeneous inhibitory neural networks with structured synapses.
E Urdapilleta - Chaos (Woodbury, NY), 2021 - europepmc.org
Inhibitory neurons form an extensive network involved in the development of different
rhythms in the cerebral cortex. A transition from an incoherent state, where all inhibitory …
rhythms in the cerebral cortex. A transition from an incoherent state, where all inhibitory …
Transition to synchronization in heterogeneous inhibitory neural networks with structured synapses
E Urdapilleta - Chaos (Woodbury, NY), 2021 - pubmed.ncbi.nlm.nih.gov
Inhibitory neurons form an extensive network involved in the development of different
rhythms in the cerebral cortex. A transition from an incoherent state, where all inhibitory …
rhythms in the cerebral cortex. A transition from an incoherent state, where all inhibitory …
Transition to synchronization in heterogeneous inhibitory neural networks with structured synapses
E Urdapilleta - 2021 - ri.conicet.gov.ar
Inhibitory neurons form an extensive network involved in the development of different
rhythms in the cerebral cortex. A transition from an incoherent state, where all inhibitory …
rhythms in the cerebral cortex. A transition from an incoherent state, where all inhibitory …