Mykytas M. Methodology of system geometric modeling of adaptive building clusters of energy efficiency

Українська версія

Thesis for the degree of Doctor of Science (DSc)

State registration number

0519U000663

Applicant for

Specialization

  • 05.01.00 - Прикладна геометрія, інженерна графіка та ергономіка

04-07-2019

Specialized Academic Board

Д 26.056.03

Kyiv National University of Construction and Architecture

Essay

The relevance of the chosen topic of research is determined by the fact that today geometric and graphical instruments of applied geometry are effective tools in the simulation of socio-technical systems, in the management of flow distribution of resources, optimization of multifactorial processes, solving problems of econometrics, modeling of complex structured technological processes, etc. Indeed, such systems combine the multi-component development and efficiency of functioning in a modern market environment. Modern trends in world development dictate new priorities for the development and functioning of socio-technical systems, which, according to the topology, represent a specialized class of enterprises that have been active in the market. One of the functional areas of the development of such systems is the sectoral specialization, which determines the additional priorities and functionality of ensuring the viability of the system. One of the effective areas of development of branch systems of socio-technical systems is a construction complex that actively forms an investment complex of any economy. The main priority of the industry is its energy efficiency in all its manifestations and functionalities, where the building element is the basic element. The quality and implementation of construction projects on energy efficiency in the Ukrainian architectural and construction industry are largely determined by the need and opportunity to create effective organizational forms for the implementation of relevant projects at the local, regional and national levels. The problem of clustering these processes requires not only systematic research but also an active scientific basis for providing the necessary tools at all stages of the implementation, operation, administration and monitoring of the implementation of the life cycle of the construction project. The main idea of the dissertation research is the need to solve the three-fold problem: a) the development of methodological foundations of system applied geometry using clustering tools; b) developing on this basis methods of constructing and researching the structures and behavior of adaptive cluster organizational structures for energy efficiency; c) the establishment of appropriate technological platforms for building a decision support system. The diversity of energy efficiency issues, the high degree of uncertainty and the associated structural and functional complexity of the corresponding subsystems of cluster organizational systems require the development of a systemic and technologically grounded approach in the application of geometric and graphical simulation methods in solving these problems. The scientific hypothesis consists in the formation of the following scientific and applied idea: the efficiency of modeling the structure and processes of the functioning of adaptive energy efficiency building clusters (AEBC) can be significantly improved through the systematic application of applied geometry and system analysis tools. According to the determined formulation, a graphical structural and logical scheme of the dissertation research, which combines the following interrelated directions, is formed, namely: the development of methodological foundations of system applied geometry with the study of clusterization as its important instrumental means; creation of models of structures, functioning and optimization of cluster organizational energy efficiency systems; development of technological platforms and intellectual means of supporting the design of organizational clusters with the systematic application of geometric and graphical modeling methods.

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