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Journal Neurocomputers №12 for 2016 г.
Article in number:
The codes material substratum of consciousness is the code of neuron localization?
Authors:
I.S. Bryantcev - Post-graduate Student, Moscow City Pedagogical University E-mail: kolbasa-90@list.ru M.A. Ryazanov - Ph.D. (Phis.-Math.), Senior Research Scientist, Department of Calculation Mathematics and Cybernetics, the M.V. Lomonosov Moscow State University E-mail: ryazanov@cs.msu.su A.V. Savelyev - Senior Research Scientist, Director of the Patent agency «©Uniquely honest patenting» (Moscow) E-mail: gmkristo@rambler.ru
Abstract:
On the basis of our previous work on electromechanical neuron important findings were made and new results were obtained, indicating the potential of fundamentally different mechanisms of consciousness as opposed to the current hypotheses. The ge-neralization of our work in the field of functional neural network modeling morphodynamics dendrites of neurons with the actual configuration are shown. On the basis of mathematical modeling [2], taking into account the geometric characteristics of real dendrites obtained by electron micrographs, we proposed the possible solution to the problem of distal synapses. This solution consists in a high plasticity of dendritic membrane distal ends and functional self-regulation of its state general somatic depolari-zation and hyperpolarization potential. The conclusions that the vital functions of a neuron isn\'t determined by its electrical activi-ty only. It is shown that by combining the dendritic filopodia, capable of forming a soliton under the action potentials of passive EPSP, this property is preserved in the resulting spliced syncytium. Thus, the neuron is a neuron wave, generating a wave of po-tentials due to the complex configuration of dendritic membrane. Moreover, the large question is the primacy of its electrical ac-tivity and morphological or functional aberrations, especially, high frequency which were discovered by us [5-7]. Shown that strongly searched by the so-called «Code of consciousness» can not be topogram multi-spikе electrical activity, can not be the «wave pattern» (by A.N. Lebedev), can not be the static «c, ie. factual connections between neurons, and may be the dynamics of mechanical systems related between neurons in the form of permanent changes in their regulations of dendrites, a kind of «dynamic connection». It is possible that in this way it can be associated with higher cognitive and behavioral functions, including direct likeness of its mechanical neurodynamics and semantics of behavioral dynamics. And thus it may be the «missing» link, which would help to bring to life undeniably progressive «cognithome» model [14]. Science knowledge generated direction, which involves both specific organization researches and organization of appropriate experimental basis. This work was financially supported by RHSF in grant № 15-03-00519а «Post-non-classic paradigm of artificial intellect».
Pages: 51-58
References

 

  1. Savelev A.V. Sushhestvuet li «trudnaja problema soznanija»? // Nejjrokompjutery: razrabotka, primenenie. 2014. № 4. S. 47-48.
  2. Savelev A.V. Nejjrokompjutery i obshhestvo // Nejjrokompjutery: razrabotka, primenenie. 2015. №7. S. 35-43.
  3. Ivanickijj A.M. Glavnaja zagadka prirody: kak na osnove raboty mozga voznikajut subektivnye perezhivanija // Psikhologicheskijj zhurnal. 1999. T. 20. № 3. S. 93.
  4. Sokolov E.N. Perception and the conditioned reflex. NY, 1963. 309 p.
  5. Patent RF po a. s. № 1394975. Ustrojjstvo dlja modelirovanija nejjrona / N.A. Saveleva-Novosjolova, A.V. Savelev. 1988.
  6. Savelev A.V. Nejjrokompjutery v izobretenijakh // Nejjrokompjutery: razrabotka, primenenie. 2004. № 2-3. s. 33-49.
  7. Kolushov V.V., Savelev A.V. K funkcionalnojj morfodinamike dendritov nejjronov // Nejjrokompjutery: razrabotka, primenenie. 2016. № 2. S. 33-38.
  8. Sotnikov O.S., Labas JU.A., Letunov V.N. Reaktivnaja podvizhnost dendritov i koncevykh struktur u vydelennykh nejjronov morskikh bespozvonochnykh // Citologija. 1983. T. 25. S. 420-425.
  9. Sotnikov O.S. SHHelevye kontakty, sincitialnye perforacii i slijanie nejjronov. Reabilitacija retikuljarizma Goldzhi // Nejjronauka dlja mediciny i psikhologii. V materialakh KHII Mezhdunarodnogo kongressa. 2016. S. 378-379.
  10. Patent RF № 2024059. Ustrojjstvo dlja modelirovanija nejjrona / A.G. ZHukov, N.A. Saveleva-Novosjolova, A.V. Savelev, T.S. Lavrova. 1994. BI № 22.
  11. Savelev A. V. Nejjrosolitonika // Nejjrokompjutery: razrabotka, primenenie. 2016. № 6. S. 16-18.
  12. Lebedev A.N. O fiziologicheskikh osnovakh vosprijatija i pamjati // Psikhologicheskijj zhurnal. 1992. №2. S. 30-41.
  13. Lebedev A.N. The oscillatory mechanisms of memory // Cognitive Processing. 2001. T. 2. S. 57-66.
  14. Anokhin K.V. Kognitom: setevoe rasshirenie teorii funkcionalnykh sistem // Filosofskie problemy iskusstvennogo intellekta. M.: IIntell. 2015. S. 12-18.
  15. Mikulinskijj S.R., Mirskijj EH.M. Naukovedenie. Bolshaja sovetskaja ehnciklopedija. V 30 t. / gl. red. A.M. Prokhorov. M.: Sovetskaja ehnciklopedija. 1969-1978. 1974. T. 17. S. 368.
  16. Internet-zhurnal «Naukovedenie». ISSN 2223-5167. http://naukovedenie.ru/index.php-p=journal.
  17. Antropova L.K., Kulikov V.JU., Kozjaeva E.A., Sorokin O.V. Fiziologija krovi. Novosibirsk: NGMU. 2009. 355 s.