Danylenko Y. Unification of the parameters of scintillation technology taking into account innovative development

This dissertation has found a solution to the important scientific and practical problem of the unification of the parameters of scintillation technology for its unequivocal identification, taking into account the innovative development to increase the efficiency of the innovation processes. The purpose of this dissertation is to unify the parameters of the scintillation technology which will enable its unambiguous identification, taking into account innovative development which help eliminate technical trade barriers and prevent their creation. The object of the research is the process of unification and identification of the parameters of scintillation technology in the form of innovative product. Subject of research are unification and arrangement methods of the parameters of scintillation technology, creation of nomenclature for unequivocal identification of scintillation technology. During the research, the following analysis methods were used: ranking method and expert assessment method to unify the parameters of scintillation technology; general scientific logical methods of analysis and synthesis, system approach and analogy, analytical grouping to generalize innovation classification and sequence of changes in the generations of innovation process; mathematical model of graph theory to create a model of innovation process; graphical processing method of the research results for forecasting. Existing regulatory database of scintillation technology was analyzed, and its diversified application was defined due to the properties of the scintillation materials; it requires the unification of the parameters of scintillation technology for its unambiguous identification considering innovation development. Developed generalization of the classification of innovations establishes interrelationships between different types of innovations, innovation degree and requirement to standardize the parameters and characteristics of scintillation technology and allows to evaluate the necessity of developing regulatory norms based on the level of scientific and development progress. The graphoanalytic model of the innovation process of the scintillation technology was build, through the generalization of the sequence of changes of its generations using the corresponding models, and its simulation was carried out. The evaluation made it possible to determine that the development of a regulatory document for the designation of scintillation technology can affect the innovation process and help reduce the lead time of the innovation. The assessment method of scintillation technology efficiency by estimating the degree of innovation and the accumulation value of the development of its industries was developed, which allowed obtaining and approximating graphical dependencies in order to be able to predict their further development. A multiplicative method which forecasts the development of scintillation technology was proposed, based on reduced equivalent efficiency of innovations and its components, which simultaneously takes into account their theoretical weight coefficients according to the expert survey to determine the feasibility of developing a standard for nomenclature. The unification method for the parameters of scintillation technology, which consists of a combination of ranking methods and expert assessments, was developed. The proposed method unifies the parameters of scintillation technology and offers nomenclature for this technology, which are included into the international standard, thus making it possible to be uniquely identified taking into account innovative development.