Authors: Martin Dudziak
Molecular dynamics across large neural membrane and dispersed cytoskeletal structures are conjectured to provide the matrix of actions required for the emergence of coherent self- organized behavior. These patterns may be representable as non-stationary yet stable solitons, chaoitons, occurring as topological deformations at the scale of protein subchains, capable of stability over time for the storage of information, providing the basis for learning, memory, and consciousness. The problem of scalability may be addressed by examining self-similar soliton-like behavior among complexes of neurons operating within the matrix of synapto-dendritic field activity. Atomic force microscopic observation is seen as the most promising avenue toward experimental confirmation of such theoretical models.
Comments: 11 Pages. Early work, @ 1994-1997
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