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Holonomy, quantum mechanics and the signal-tuned Gabor approach to the striate cortex

Author

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  • José R. A. Torreão

    (Instituto de Computação, Universidade Federal Fluminense, Niterói RJ 24210-346, Brazil)

Abstract

It has been suggested that an appeal to holographic and quantum properties will be ultimately required for the understanding of higher brain functions. On the other hand, successful quantum-like approaches to cognitive and behavioral processes bear witness to the usefulness of quantum prescriptions as applied to the analysis of complex non-quantum systems. Here, we show that the signal-tuned Gabor approach for modeling cortical neurons, although not based on quantum assumptions, also admits a quantum-like interpretation. Recently, the equation of motion for the signal-tuned complex cell response has been derived and proven equivalent to the Schrödinger equation for a dissipative quantum system whose solutions come under two guises: as plane-wave and Airy-packet responses. By interpreting the squared magnitude of the plane-wave solution as a probability density, in accordance with the quantum mechanics prescription, we arrive at a Poisson spiking probability — a common model of neuronal response — while spike propagation can be described by the Airy-packet solution. The signal-tuned approach is also proven consistent with holonomic brain theories, as it is based on Gabor functions which provide a holographic representation of the cell’s input, in the sense that any restricted subset of these functions still allows stimulus reconstruction.

Suggested Citation

  • José R. A. Torreão, 2016. "Holonomy, quantum mechanics and the signal-tuned Gabor approach to the striate cortex," International Journal of Modern Physics C (IJMPC), World Scientific Publishing Co. Pte. Ltd., vol. 27(08), pages 1-15, August.
  • Handle: RePEc:wsi:ijmpcx:v:27:y:2016:i:08:n:s0129183116500893
    DOI: 10.1142/S0129183116500893
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