Abstract
The results of decoding and genetic programs of structuration analysis of hybrid electromechanical systems are generalized in this paper. Authors established the determined interrelations between genetic programs, structure of periods and groups in periodic generating system of electromagnetic field primary sources, genetic codes of hybrid chromosomes, the taxonomical and functional variety of developing electromechanical objects of hybrid type. The quantitative structure and properties of genetically admissible variety of hybrid Types of electromechanical objects are defined. The results of evolutionary experiments confirming reliability of predictive function of genetic programs are given in this article.
Highlights
The global changes of the world around happening recently in the nature, society and techno sphere put forward essentially new tasks for modern science
This paper considers the problem of decoding of genetic programs by criterion of genetic information components and the definition of determined interrelation between programs and steady hereditary features of hybrid classes of descendant EM-structures
It is for the first time shown that hybrid objects represent an independent and predictable branch in structural evolution of the complex electromechanical systems, covering all generic categories, irrespective to their functional accessory
Summary
The global changes of the world around happening recently in the nature, society and techno sphere put forward essentially new tasks for modern science. - Hybrid EM-objects have the genetic nature since their synthesis is based on the all-system principle of crossing of the initial (parental) electromagnetic chromosomes, differing by their genetic information (Shinkarenko, 2002; Shinkarenko & Gaidaienko, 2010a);. The new scientific results received recently in the field of genetic electro mechanics, radically change approach to the theoretical analysis and structural synthesis of complex EM-objects. The system approach basis in the research of developing classes of hybrid objects is formed by the genetic programs containing ordered highly intellectual information about known structural representatives as well as about genetically admissible objects, but still absent on this time of their evolution. Definition and decoding of genetic structuration programs of EM-objects belongs to a prerogative of new developing field of knowledge, namely Predictive Genomics of Anthropogenic Systems, and researches in this direction represent an actual scientific task
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