DISCOVERING OF GENETIC PROGRAMS OF THE FUNCTIONAL CLASS OF DIFFICULT ELECTROMECHANICAL SYSTEMS ACCORDING TO HIS ANY REPRESENTATIVE

It is shown that arbitrary electromechanical object is a carrier of genetic information. The interrelations between the genetic information of electromechanical objects with generating periodic system of primary sources of magnetic field and the genetic programs of their structural evolution were studied. The levels of presentation of knowledges in genetic programs of structuring of electromechanical systems are analyzed. The methodology of discovering of genetic pro-grams at any specification level on description of only one representative of a class is proposed. By the example of complex electromechanical system it is shown the genetic synthesis and the analysis procedures application sequence in the tasks of decoding and interpretation of genetic programs. It is shown interrelation of magnetic field structure with homology and special geometry of windings as well as with physical state of secondary environment in the descendant objects. Innovative potential of genetic programs of the class of electromecanical systems in question was determined. Results of evolutionary experiments, confirming credibility of performed researches, were given.