Journal ArticleDOI
Synchronous firing and higher-order interactions in neuron pool
TLDR
A simple model in which neurons receive common overlapping inputs is analyzed and it is proved that such a model can have a widespread distribution of activity, generating higher-order stochastic interactions.Abstract:
The stochastic mechanism of synchronous firing in a population of neurons is studied from the point of view of information geometry. Higher-order interactions of neurons, which cannot be reduced to pairwise correlations, are proved to exist in synchronous firing. In a neuron pool where each neuron fires stochastically, the probability distribution q(r) of the activity r, which is the fraction of firing neurons in the pool, is studied. When q(r) has a widespread distribution, in particular, when q(r) has two peaks, the neurons fire synchronously at one time and are quiescent at other times. The mechanism of generating such a probability distribution is interesting because the activity r is concentrated on its mean value when each neuron fires independently, because of the law of large numbers. Even when pairwise interactions, or third-order interactions, exist, the concentration is not resolved. This shows that higher-order interactions are necessary to generate widespread activity distributions. We analyze a simple model in which neurons receive common overlapping inputs and prove that such a model can have a widespread distribution of activity, generating higher-order stochastic interactions.read more
Citations
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Journal ArticleDOI
Searching for collective behavior in a large network of sensory neurons.
Gašper Tkačik,Olivier Marre,Olivier Marre,Dario Amodei,Elad Schneidman,William Bialek,Michael J. Berry +6 more
TL;DR: The properties of the neural vocabulary are explored by estimating its entropy, which constrains the population's capacity to represent visual information, and classifying activity patterns into a small set of metastable collective modes, showing that the neural codeword ensembles are extremely inhomogenous.
Journal ArticleDOI
Higher-Order Interactions Characterized in Cortical Activity
TL;DR: It is shown that higher-order interactions are required to properly account for cortical dynamics such as ongoing neuronal avalanches in the alert monkey and evoked visual responses in the anesthetized cat and suggests a simple solution to overcome the apparent formidable complexity previously thought to be intrinsic to those interactions.
Journal ArticleDOI
Inverse statistical problems: from the inverse Ising problem to data science
TL;DR: This review focuses on the inverse Ising problem and closely related problems, namely how to infer the coupling strengths between spins given observed spin correlations, magnetizations, or other data.
Journal ArticleDOI
The physics of brain network structure, function and control
TL;DR: The brain is characterized by heterogeneous patterns of structural connections supporting unparalleled feats of cognition and a wide range of behaviors as discussed by the authors, and a fundamental challenge remains to understand how the brain's structural wiring supports cognitive processes, with major implications for personalized mental health treatments.
Journal ArticleDOI
Bistability and Non-Gaussian Fluctuations in Spontaneous Cortical Activity
Frank Freyer,Kevin M. Aquino,Kevin M. Aquino,Peter A. Robinson,Petra Ritter,Michael Breakspear,Michael Breakspear +6 more
TL;DR: By studying the temporal fluctuations of power in human resting-state electroencephalograms, it is shown that, although these simple properties may hold true at some temporal scales, there is strong evidence for bistability and nondiffusivity in key brain rhythms.
References
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Visual feature integration and the temporal correlation hypothesis
Wolf Singer,Charles M. Gray +1 more
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Book
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Journal ArticleDOI
Information geometry on hierarchy of probability distributions
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