Alexander Gorpinchenko
Publications:
Shaitor N. M., Yakimovich B. A., Ryaskov Y. I., Gorpinchenko A. V.
Application of Genetic Engineering Techniques in the Development of Complex Electromechanical Structures for Marine Robotics
2020, Vol. 16, no. 1, pp. 93-103
Abstract
The current trends in the creation of underwater robotic devices for the study of the world
ocean are considered. It is noted that complex types of motion of various effectors cannot be
implemented by means of simple electromechanical transducers. Therefore, the use of genetic
engineering techniques to create a variety of electromechanical structures that can provide effective
functionality of marine robotics objects solves a scientific problem that is of much current
interest.
The aim of this work is to analyze and study the possibility of applying the principles of
genetic synthesis for the development of new types of energy-efficient transducers built on the
basis of complex electromechanical structures and demanded by a wide range of the developing
marine robotics.
It is shown how complex electromechanical structures that satisfy a given target function are
obtained using genetic operators, together with operators of geometric transformations. The use
of genetic engineering techniques for the development of electromechanical transducers expands
the possibilities of creating and studying the structural diversity of mechanisms with complex
movement of effectors. The configuration of a wave fin propulsion device based on the inductor
electromechanical transducer of axial-radial configuration is considered.
A mathematical model, methods and a program for calculating an electromechanical transducer
with complex structural axial-radial configuration is developed. The problem of determining
the optimal copper/steel ratio is solved, the leading dimensions are obtained and the
rational relations of the parameters for calculation of the axial-radial configuration transducer
with a minimum mass are established.
Calculations show that, in comparison with the traditional inductor machines with drumtype
rotors, the mass of the active electromagnetic core of axial-radial type transducers can be
reduced by a factor of 2.7 to 3.4 with a double reduction in volume. Axial-radial configurations
of electromechanical structures designed for electric frequencies of 50 to 400 Hz are suitable
for use in low-speed drives of wind and hydroelectric power plants and propulsion systems of
underwater vehicles, and those designed for 1000 to 10 000 Hz can be used in high-speed drives
of autonomous power plants of vehicles, aircraft, gyromotors, gas and steam turbines.
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