The Scientific seminar "The genetic programs of evolution of anthropogenic systems" in 2013, 18th of April, occurred at the IME organized together with general technical department of Academy of Sciences of Higher Education of Ukraine (ASHEU) entitled “The genetic programs of evolution of anthropogenic systems" (speaker – Doctor of Technical Sciences, Professor. V.F.Shynkarenko, Chair of Electromechanics "KPI", Academician ASHEU). The seminar was opened by the Deputy Director of IME prof. O.V. Shevchenko, the speaker was presented by academician of ASHEU, honoured inventor of Ukraine, prof. Y.M. Kuznyetsov.
V.F.Shynkarenko started according to the German scientist, a theoretical physicist, founder of synergetics prof. H.Haken: "The main distinguishing feature of complex systemsis that they are truly endless variety... We are faced with an acute problem of finding a unified principles that would properly fit to the study of such systems. The report was devoted to search and scientific substantiation of principles and laws. The author demonstrated his scientific study of the evolution of electromechanical science, gave an example of interdisciplinary connections between the sciences of Antiquity and modern science atlas, compiled by the Los Alamos National Laboratory (Los Alamos National Laboratory) in the United States and showed that more than 15 modern scientific disciplines based on evolutionary and genetic theories and use their principles. It was also shown the homology of wide laws of nature in sciences such as electrical engineering and electrical mechanics, physics, mechanics, chemistry, thermodynamics, philosophy, physics, crystallography, ecology, sociology, economics, physiology, medicine and it was demonstrated the community of effect processes of evolution in natural and human systems , it was shown the examples of the evolution of biology, chemistry, nanotechnology, computers, mobile phones and Indo-European languages.
More detailed prof. V.F.Shynkarenko focused on the results of practical use of genetic and systematic approach in the electromechanical industry. The speaker gave an example of manifestation of wide-system properties of isotopy, homology, isomerism, parity and frequency not only in electromechanics, but also in such seemingly unrelated industries such as chemistry, heating engineering, mechanics, zoology, botany, linguistics and number theory. Speaker analyzed 5 basic principles of genetic changeability in anthropogenic systems: crossing, crossing-over, replication, mutation and inversion, the manifestation of which he demonstrated not only the electromechanical transducers, but also on the examples from other fields of science and technology. Of course, without experimental confirmation the theory cannot claim to be true, so professor V.F.Shynkarenko showed the results of evolutionary (genome- historical and genome-predictive) experiments in genetic electromechanics and gave examples of decoding and implementation of genetic programs on the example of some electromechanical systems (electromechanical Disintegrators, motor spindles, turbines, generators for converting of the energy of the waves etc.).. Author showed the possibility of transferring from evolution, which only were being watching to the evolution which can be controlled, i.e. way of solving of extremely important problem of prediction.
Special attention of prof. V.F.Shynkarenko was paid to the analysis of technical education in which the modern disciplines are mainly (90-95%, according to the academician V.I.Arnold) aimed to the unilateral development of left hemisphere of the brain that is responsible for the calculation, logic, operations with sequences, whereas the right hemisphere that is responsible for imagination, spatial and systems thinking, creativity (including also technical) barely gets development and degrades. In order to change this situation the author uses methodological approaches to the harmonious development of both hemispheres. Convincing results of advantages of harmonious approach to the organization of teaching, research and innovation work with students the author presented in the form of awards, individual scholarships and diplomas which were awarded to the students of the Department of Electromechanics as a result of participation in national and international competitions and contests.
Finally V.F.Shynkarenko gave examples of existing element bases of generative genetic programs in various fields: biology – chromosomes, chemistry - chemical elements, electromechanics - primary sources of field, mechanics - basic solids, music - notes, arithmetic - numbers , language - alphabet. The opening of generative periodic programs based on common principles of genetic organization in anthropogenic systems opens the possibility of transfer to the strategy of controlled evolution and establishment of harmonious interdisciplinary relationships. The search of such relationships due to traditional way is connected with significant time costs. The speaker illustrated this on the example of evolution of interdisciplinary connections: music - numbers (Pythagoras, 500 BC) Music - Chemistry (J. Newlands, 1865), Music - psychology (J. Corning, 1899 .) music - painting (M.K. Chyurlonis, 1900) Music - Geometry (D. Timoshka, 2008). His speech professor. V.F. Shynkarenko ended with the words: " Anthropogenic systems, also like the systems of natural origin, belong to the class of genetically organized systems that develop, have their own genetic programs of structural development. The opening and knowledge of such programs in technical sciences provides a transition to the essentially new level of system knowledge based on strategy of genetic prevision and controlled evolution. The nature once again invites us to a constructive dialogue. The appropriate step is behind us.
During the public discussion the participants get the detailed explanations and scientific substantiation of presented provisions. In particular, Y.M. Kuznyetsov, professor of the department of design of benches and machines of IME, showed the results of use of genetic theory in mechanical systems on the example of realization of a new generation of benches, pointing out that the time which his creative team before spent on tasks of similar complexity, reduced by at least one time as little exactly due to the use of a genetic approach proposed by prof. V.F. Shynkarenko. He also noted that the equity and working capacity of the genetic theory of electromechanical systems were confirmed by the scientific results of a number of scientists, including not only scientists of the electromechanical industry.
The scientific seminar urged the participants to reflect on the fact that the time that science spends on the latest achievements of science unsystematically, can be reduced by one time as little using the methodology of structural and systematic approach. As life expectancy is limited, there is a logical conclusion that the neglect of such a powerful device for research that is offered by prof. V.F. Shynkarenko and his creative team is to put it mildly, imprudent.
A.K. Skuratovskyy Assoc. IME, Candidate of Technical Sciences., honored inventor of KPI