E3S Web Conf.
Volume 220, 2020Sustainable Energy Systems: Innovative Perspectives (SES-2020)
|Number of page(s)||4|
|Published online||16 December 2020|
Formalization of target and assessment of quality of the cyber-physical control systems for emissions reduction technologies
CAD dept. Saint Petersburg Electrotechnical University “LETI” ul. Professora Popova 5, 197376 St. Petersburg, Russian Federation
2 IIQS dept. Saint-Petersburg State University of Airspace Instrumentation, 67, Bolshaya Morskaya St., Saint-Petersburg, 190000, Russian Federation
3 CPSC high school, Peter the Great St. Petersburg Polytechnic University, 29, Polytechnicheskaya St., Saint-Peterburg, 195251, Russian Federation
* Corresponding author: email@example.com
Monitoring and inventory is a necessary but not sufficient condition to reduce emissions in the energy and industry. The ultimate task of controlling air purification technologies in combination with monitoring is effectively achieved while minimizing the human factor. The creation and application of cyber-physical technology management systems provide a solution to a set of related environmental problems. In addition, the development of models based on cyber-physical systems forms new requirements for the development of technologies for their creation. A special feature of such technologies is close interaction between computing methods with design and production facilities. These issues have not been sufficiently reflected in publications. The article presents the target setting for the creation of cyber-physical technology control systems based on local laws of preservation and the decomposition of the target into macroscopic quality assessments. A mathematical model and methods of quality assessment at the life cycle stages of such systems based on recalculation of probability densities of a priori data are presented. Examples of cyber-physical emission reduction systems in the energy and industry developed under the nature-technology concept are given.
© The Authors, published by EDP Sciences, 2020
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