From a control architecture to the basic circuit of the cortex using dynamic state feedback
A. Lõrincz
Sixth Annual Computational Neuroscience Meeting, Montana, U.S.A.
Collection of abstracts p. 96
(July 6-10, 1997)
Abstract
The Static and Dynamic State Feedback control scheme utilizing speed
field tracking and an estimate of the inverse dynamics offers a connectionist
solution for data compression
and reconstruction that corresponds to Wittmeyer's iterative
scheme for computing the solution of matrix
equations. The two schemes suggest a unified model of cortical processing
capable of explaining (1) some features of the hierarchy of
motor areas, including the organization of the
basal ganglia-thalamocortical loops, (2) the columnar
organization of the cortex, and (3) the main part of the
basic neural circuit of the cerebral cortex.
