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3. Shinkarenko V. Genetic Programs of Complex Evolutionary Systems (Part 1) / V. Shinkarenko, Y. Kuznietsov // 11th Anniversary International Scientific Conference «Unitech’11», 18 – 19 November 2011, Gabrovo, Bulgaria. – Gabrovo, 2011 – Vol. I. – P. 33–43.
4.
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/
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, 2009. – 6. – . 31–36.
5. Shynkarenko V. Genetic Foresight in Science and Technology:
from Genetic Code to Innovative Project / V. Shynkarenko // 10th Anniversary International Scientific Conference «Unitech’10», 19 – 20 November
2010, Gabrovo, Bulgaria. – Gabrovo, 2010 – Vol. III. – P. 297–302.
6.
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THE THEORY AND PRACTICE OF OPERATED EVOLUTION AT
LEVEL OF ARBITRARY TYPES OF ELECTROMECHANICAL
CONVERTERS OF ENERGY
V. Shynkarenko, V. Kotlyarova (Lysak)
Summary
The results of theoretical and experimental studies confirming
the existence of genetic programs of speciation in developing functional
classes of electromechanical systems are generalized. The practical
possibility of transition from the observed evolution to operated evolution strategy by technical innovations is shown on an example of a new
functional class of electromechanical disintegrators of multiple-factor
technological action.