Random fields and probability distributions with given marginals on randomly correlated systems: a general method and a problem from theoretical neuroscience
Copyright policy )Random fields and probability distributions with given marginals on randomly correlated systems: a general method and a problem from theoretical neuroscience
Summary: A class of families of marginal probabilities on sets of discrete random variables is studied and a necessary and sufficient condition for the consistency of the given marginals is provided. This result allows one to verify the consistency of the marginals through a Boltzmann statistical analysis. The procedure is then applied in order to verify the hypotheses assumed in a recent model of neocortical associative areas, according to which connected modules of neurons are simultaneously active with probability higher than chance, and inter-modular connections are very diluted. The verification becomes a typical problem of extremely diluted spin systems in Boltzmann-Gibbs ensemble. The results presented here justify the assumptions made in the neuroscientific theory, and an upper bound to the inter-modular activity correlation is found.
extremely diluted spin systems, Stochastic methods applied to problems in equilibrium statistical mechanics, Neural biology, neocortical associative areas, Boltzmann-Gibbs ensemble, Random fields, inter-modular activity correlation
extremely diluted spin systems, Stochastic methods applied to problems in equilibrium statistical mechanics, Neural biology, neocortical associative areas, Boltzmann-Gibbs ensemble, Random fields, inter-modular activity correlation
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