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UDC 004
O.V. Palagin1, M.V. Semotiuk2


1 V.M. Glushkov Institute of Cybernetics, National Academy of Sciences of Ukraine, Kyiv, Ukraine

palagin_a@ukr.net

2 V.M. Glushkov Institute of Cybernetics, National Academy of Sciences of Ukraine, Kyiv, Ukraine

semo@i.ua

TECHNOLOGIES OF VIRTUALIZATIN OF LIVING BEINGS

Abstract. The authors consider one of the components of information technology — virtualization technologies, which are unique to living beings. The relationship of virtualization technologies with other components of information technologies, such as quantitative technologies, data technologies, knowledge technologies, is shown. Using the model of the human inner ear as an example, it is shown how they work in practice, allowing some physical parameters to be replaced by others when the possibilities of a living being are limited.

Keywords: information technologies, technology levels, virtualization technologies, data technologies, knowledge technologies, verification, standing waves, traveling wave, transverse resonance, imaginary experiment, physical experiment, virtual following, inner ear, helix, Reissner’s membrane, basilar membrane, quantization.


FULL TEXT

REFERENCES

  1. Kuznetsov A.N. Information interaction in technical and living systems. Informatsionnyye protsessy. 2001. Vol. 1, N 1. P. 1–9.

  2. Palagin O.V., Semotyuk M.V., Ustenko S.V. Chaotic architectures — a new direction in the development of computer technology. Kibernetyka i systemnyj analiz. 2020. Vol. 56, N 3. P. 184–193.

  3. Haikin S. Neural Networks: A Complete Course [Russian translation]. Moscow: Williams Publishing House, 2008. 1103 p.

  4. Vaganov R.B., Matveev R.F., Meriakri V.V. Multiwave waveguides with random irregularities [in Russian]. Moscow: Sov. radio, 1972. 232 p.

  5. Slyusarev A.O., Samsonov O.V., Mukhin V.M. et al. Biology: Textbook [in Ukrainian]. Kyiv: Vyshcha shkola, 2002. 622 p.

  6. Reichenbach T., Stefanovic A., Nin F., Hudspeth A.J. Waves on Reissner’s membrane: a mechanism for the propagation of otoacoustic emissions from the cochlea. Cell Reports. 2012. Vol. 1, Iss. 4. P. 374–384. https://doi.org/10.1016/j.celrep.2012.02.013.

  7. Varin V.P., Petrov A.G. Hydrodynamic model of the human cochlea. J. Vychisl. matem. i matem. phiz 2009. Vol. 49, N 9. P. 1708–1723.




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