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Second type of criticality in the brain uncovers rich multiple-neuron dynamics

David DahmenInstitute for Advanced Simulation (IAS-6), Jülich Research Centre, 52425 Jülich, Germany;Sonja GrünInstitute for Advanced Simulation (IAS-6), Jülich Research Centre, 52425 Jülich, Germany;Markus DiesmannDepartment of Physics, Faculty 1, RWTH Aachen University, 52062 Aachen, GermanyMoritz HeliasDepartment of Physics, Faculty 1, RWTH Aachen University, 52062 Aachen, Germany
2019en
ABI

Аннотация

Cortical networks that have been found to operate close to a critical point exhibit joint activations of large numbers of neurons. However, in motor cortex of the awake macaque monkey, we observe very different dynamics: massively parallel recordings of 155 single-neuron spiking activities show weak fluctuations on the population level. This a priori suggests that motor cortex operates in a noncritical regime, which in models, has been found to be suboptimal for computational performance. However, here, we show the opposite: The large dispersion of correlations across neurons is the signature of a second critical regime. This regime exhibits a rich dynamical repertoire hidden from macroscopic brain signals but essential for high performance in such concepts as reservoir computing. An analytical link between the eigenvalue spectrum of the dynamics, the heterogeneity of connectivity, and the dispersion of correlations allows us to assess the closeness to the critical point.

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Цитирований: 2Использованных источников: 0