On differential-non-autonomous representation integrative activity of neuropopulation bilinear second-order model with a delay

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For neuromorphic processes specified by the behavior of a local neuropopulation (for example, processes induced by a brain-machine interface platform of the Neuralink type), we study the solvability of the problem of the existence of a differential realization of these processes in the class of bilinear nonstationary ordinary differential equations of the second order (with delay) in separable Hilbert space. This formulation belongs to the type of inverse problems for an additive combination of nonstationary linear and bilinear operators of evolution equations in an infinite-dimensional Hilbert space. The metalanguage of the theory being developed is the constructions of tensor products of Hilbert spaces, lattice structures with orthocompletion, the functional apparatus of the nonlinear Rayleigh-Ritz operator, and the principle of maximum entropy. It is shown that the property of sublinearity of this operator, allows you to obtain conditions for the existence of such differential realizations; along the way, metric conditions for the continuity of the projectivization of this operator are substantiated with the calculation of the fundamental group of its compact image. This work was financially supported by the Russian Foundation for Basic Research (project no. 19-01-00301).

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Nverse problems of nonlinear neuromorphic dynamics, tensor analysis, bilinear non-autonomous differential realization of the second order with delay, the rayleigh-ritz entropy operator

Короткий адрес: https://sciup.org/148322359

IDR: 148322359   |   DOI: 10.37313/1990-5378-2021-23-2-115-126

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