Изотопия в структурной организации и эволюции электромеханических преобразователей энергии
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Дата
2018
ORCID
DOI
Науковий ступінь
Рівень дисертації
Шифр та назва спеціальності
Рада захисту
Установа захисту
Науковий керівник
Члени комітету
Видавець
НТУ "ХПИ"
Анотація
Анализируется эволюция учения об изотопии за последние 100 лет. Рассмотрены принципы структурообразования электромагнитных источников-изотопов и определена иерархия уровней их сложности в структурной организации электромеханических преобразователей энергии. Показана взаимосвязь структурной изотопии с элементно-информационным базисом порождающей системы и технической эволюцией видов-близнецов электромеханических систем. Приведены результаты постановки эволюционных экспериментов, подтверждающие достоверность генетических программ в структурообразовании объектов-близнецов. Показана междисциплинарность явления изотопии в системах как естественного, так и антропогенного происхождения. Приведены примеры практического использования результатов исследований в задачах инновационного синтеза новых разновидностей электромеханических объектов.
Scientific explanation of the system nature and principles of isotope formation in technical systems using the example of analysis of genetic programs and the technical evolution of electromechanical energy converters. Research of the principles of isotope sources structure formation was carried out in accordance with the principles of conservation of symmetry and topological invariance, homology and the principle of pairing, the principle of conservation of genetic information and integral periodicity, the form of representation of which is the structure of genetic classification. The reliability of the structural isotopy theory and the degree of its manifestation in the technical evolution of electromagnetic objects was verified by evolutionary experiments. The main results of the study of isotopy in the last 100 years are considered. The principles of structure formation of electromagnetic isotopes sources and the hierarchy of complexity levels in the structural organization of the electromechanical energy converters are determined. The relationship of isotope structures with element information basis of the generative system and the twin-species determining the direction of the technical evolution of electromechanical systems is shown. The results of evolutionary experiments setting confirming the accuracy of the structural prediction using genetic structure formation programs of isotopes are presented. Systemability of isotopy phenomena in a genetically-organized systems both natural and anthropogenic origin is analyzed. The system nature of isotopy is presented based on its direct connection with the element and information basis of genetically organized systems, with the structure of groups and the periods of the generating system of primary elements. The systemic nature of isotopy makes it necessary to extend it to other evolving technical systems. The practical significance of research results is determined by the development of genetic data banks that systematize information on the genetically permissible variety of isotope sources. Such information systems supplemented by information on existing types of twin objects form the information basis for the realization of the technology of structural prediction and the implementation of directed synthesis of new electromechanical objects.
Scientific explanation of the system nature and principles of isotope formation in technical systems using the example of analysis of genetic programs and the technical evolution of electromechanical energy converters. Research of the principles of isotope sources structure formation was carried out in accordance with the principles of conservation of symmetry and topological invariance, homology and the principle of pairing, the principle of conservation of genetic information and integral periodicity, the form of representation of which is the structure of genetic classification. The reliability of the structural isotopy theory and the degree of its manifestation in the technical evolution of electromagnetic objects was verified by evolutionary experiments. The main results of the study of isotopy in the last 100 years are considered. The principles of structure formation of electromagnetic isotopes sources and the hierarchy of complexity levels in the structural organization of the electromechanical energy converters are determined. The relationship of isotope structures with element information basis of the generative system and the twin-species determining the direction of the technical evolution of electromechanical systems is shown. The results of evolutionary experiments setting confirming the accuracy of the structural prediction using genetic structure formation programs of isotopes are presented. Systemability of isotopy phenomena in a genetically-organized systems both natural and anthropogenic origin is analyzed. The system nature of isotopy is presented based on its direct connection with the element and information basis of genetically organized systems, with the structure of groups and the periods of the generating system of primary elements. The systemic nature of isotopy makes it necessary to extend it to other evolving technical systems. The practical significance of research results is determined by the development of genetic data banks that systematize information on the genetically permissible variety of isotope sources. Such information systems supplemented by information on existing types of twin objects form the information basis for the realization of the technology of structural prediction and the implementation of directed synthesis of new electromechanical objects.
Опис
Ключові слова
электромеханика, структурная изотопия, генетическая программа, эксперимент, системность, electromechanics structural isotopy, genetic program, evolution, experiment, systemability
Бібліографічний опис
Шинкаренко В. Ф. Изотопия в структурной организации и эволюции электромеханических преобразователей энергии / В. Ф. Шинкаренко, И. А. Шведчикова, В. В. Котлярова // Вісник Нац. техн. ун-ту "ХПІ" : зб. наук. пр. Сер. : Електричні машини та електромеханічне перетворення енергії = Bulletin of the National Technical University "KhPI" : coll. sci. papers. Ser. : Electrical Machines and Electromechanical Energy Conversion. – Харків : НТУ "ХПІ", 2018. – № 5 (1281). – С. 14-25.