350 rub
Journal Neurocomputers №6 for 2018 г.
Article in number:
Functional geometry of dendrites and its simulating
Type of article: scientific article
UDC: [007:572. 788]. 001.57; 611.018; 612.822
Authors:

V.V. Kolushov – Ph.D. (Eng.), Associate Professor, Department of «Нigher mathematics»,  Ufa State Aviation Technical University

E-mail: KVV@ufanet.ru

A.V. Savelyev – Ph.D. (Philos.), Senior Research Scientist, Director of the Patent agency «©Uniquely honest patenting» 

E-mail: gmkristo@yandex.ru

Abstract:

The paper shows how great importance is attached to the real complex geometry of dendritic fibers on the results of modeling of neural activity, which makes it possible to conclude that it is necessary to represent a neuron as an electromechanical element with a functional choreography of dendrites.

Pages: 47-50
References
  1. Sotnikov O.S. Dinamika struktury zhivogo nejrona. L.: Nauka. 1985. 160 s.
  2. Kosicyn N.S. Mikrostruktura dendritov i aksodendriticheskih svyazej v central'noj nervnoj sisteme. M.: Nauka. 1976. 197 s. 
  3. Savelyev A.V. Geometry brain fine structure model // XXIV Wide World Mathemathical Congress. China, Beijing. 20–28.08.2002.
  4. Patent RF № 1815658. Ustrojstvo dlya morfodinamicheskogo modelirovaniya nejrona / A.G. ZHukov, T.S. Lavrova, A.V. Savel'ev. BI № 18, 1993.
  5. Svid. o reg. programmy dlya EHVM № 2010613474. EHkspertnyj algoritm neanaliticheskogo modelirovaniya aktivnoj biomembrany nejrona / V.V. Kolushov, A.V. Savel'ev. 2010.
  6. Bryancev I.S., Kolushov V.V., Savel'ev A.V. Kod polozheniya nejrona kak vozmozhnyj material'nyj substrat kodov soznaniya // Nejrokomp'yutery: razrabotka, primenenie. 2016. № 12. S. 51–58.
Date of receipt: 26 июня 2018 г.