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Journal Neurocomputers №4 for 2014 г.
Article in number:
The self-organization cellular neuroimaging and information design «virtual-living» objects
Authors:
V. V. Kolushov - Ph.D. (Eng.), Associate Professor, Department of «Нigher mathematics», Ufa State Aviation Technical University (Ufa). E-mail: KVV@ufanet.ru
A. V. Savelyev - Senior Research Scientist, Editor of the Journal «Neurocomputers: development, application», patent agency «©Uniquely honest patenting», www.patenttt.narod.ru. E-mail: gmkristo@rambler.ru
Abstract:
In the neuroimaging field with the 1970s the considerable progress was made, with as the result today several basic neural-visualization methods are based on different physical principles are known and used [1]. However, it can be classified into two groups - the structural and functional neuroimaging, which usually exist separately and do not intersect. Our work is based on the conceptual approach that the problem of the structure and function solves by the dualism - with their combination by information technology. Dynamics of functional activity is not superimposed on a morphological static object, as in parallel in the same time slots is superimposed on playing dynamics of its forms variation [2]. We indicate this as the double overlay. On fig. EPSP visible transformation, deformation neuron in electrogenesis and antidromic return on the background of the refractory period. It-s received introduction of therapeutic practice in A.N. Bakulev-s CCHVS RAMS, in particular for the morpho-functional diagnostics of the spatial position of the sources of arrhythmia in myocardial tissue [3]. The methods were has developed and applied by the authors in the algorithms of the principle of superposition, allows to create effects of the «revival» of an individual cells, cells association to the department or area of the brain to detect the real neural physiological event and recreate a picture of the functioning of living tissue [4, 5].
Pages: 31-32
References

  1. Elson L.S.O. Role of Neuroimaging in the Management of Seizure Disorders. Mayo Clin. Proc. 77. P. 1251-1264.
  2. Kolushov V.V., Savel'ev A.V. Spayk-kollektivnoe neyrokomp'yuternoe vizualizatsionnoe konstruirovanie sverkhslozhnykh neyronnykh sistem neyrobiologii // Neyrokomp'yutery: razrabotka, primenenie. 2013. № 8. S. 60-65. http://www.radiotec.ru/catalog.php-cat=jr7&art=13249. 
  3. Kolushov V.V., Savel'ev A.V. Algoritm imitatsionnogo modelirovaniya elektricheskoy deyatel'nosti kletok miokarda // Svid. o registratsii programmy dlya EVM № 2003610123. 08.01.2003.
  4. Patent № 1815658 (RF). Ustroystvo dlya morfodinamicheskogo modelirovaniya neyrona / N.A. Savel'eva-Novosyelova, A.V. Savel'ev i dr.
  5. Kolushov V.V., Savel'ev A.V. Ekspertnyy algoritm neanaliticheskogo modelirovaniya aktivnoy biomembrany neyrona // Svid. o reg. programmy dlya EVM № 2010613474. 2010.