UDC 62-5
DOI: 10.36871/2618-9976.2022.11-2.001
Authors
Viktor L. Lazarev
Candidate of Technical Sciences, Associate Professor, ITMO University, St. Petersburg, Russia
Abstract
The paper outlines an approach to managing the heterogeneity of the values of regime parameters in the working volumes of various equipment. The proposed solutions are based on the use of methods of the theory of entropy potentials. The approach is based on the model of the state of uncertainty of parameters in spacetime coordinates in the form of a value of a multidimensional complex entropy potential or, depending on the situation, its particular variants. The advantage of the model is that it describes the state of uncertainty based on a comprehensive account of the most important characteristics of the spread of parameter values: the values of the standard deviation, entropy coefficients and basic values. Based on the proposed improved and "efficient" model of uncertainty states, energysaving technologies for managing these states have been developed, both for individual regime parameters and for their complexes. The illustrations are mainly made on examples of equipment and production facilities of the biotechnological industry. The implementation of the proposed solutions will help improve the quality of monitoring the states of parameter uncertainty in the working volumes of equipment and minimize energy consumption by the corresponding control systems. Thus, an approach and solutions for the development of energy efficient control systems are proposed.
Keywords
Heterogeneity of parameter values, State of uncertainty, Theory of entropy potentials, Control, Models of states of uncertainty
