Methods for researching the sustainability of production processes when implementing a cyber-physical system

Authors

  • Arina Kudriavtceva Peter the Great St. Petersburg Polytechnic University, St. Petersburg, Russian Federation

DOI:

https://doi.org/10.20535/SRIT.2308-8893.2021.2.05

Keywords:

control, production process, sustainability, stabilization

Abstract

The article presents an analysis of the methods and criteria for assessing sustainability and the development of stabilization systems, proposed in the theory of automatic control, and studies of approaches to ensuring sustainability, proposed and applied in the practice of controlling production processes. It is proposed to develop models when introducing a cyber-physical system of a production enterprise, combining the ideas of stabilization systems developed in the theory of automatic control, and methods of the theory and practice of managing production processes, while controlling the sustainability based on the laws and methods of systems theory and system analysis.

Author Biography

Arina Kudriavtceva, Peter the Great St. Petersburg Polytechnic University, St. Petersburg

Arina S. Kudriavtceva,

a Ph.D. student at Peter the Great St. Petersburg Polytechnic University, St. Petersburg, Russia.

References

K. Shvab, Chetvertaya promyshlennaya revolyutsiya [The Fourth Industrial Revolution]. Moscow: "E" Publ., 2017, 208 p.

A.M. Lyapunov, The general problem of motion stability; Vol. 2. M.: Izd-vo AN SSSR Publ, 1956.

A.A. Voronov, Fundamentals of the theory of automatic control. M.: Energiya, 1980, 312 p.

Theory of automatic regulation; ed. V.V. Solodovnikova. M.: Mashinostroyeniye Publ., 1967.

V.N. Kozlov, V.E. Kupriyanov, and V.N. Shashikhin, Management of energy systems; part 1. Theory of automatic control. St. Petersburg: Publishing house of Polytechnic University, 2008.

A.A. Efremov, V.N. Kozlov, and V. Karakchieva, Part 2: collection of scientific papers of the XXIV International Scientific and Educational-Practical Conference, October 13-14, 2020; under total ed. V.N. Kozlova, A.N. Firsova. SPb.: POLYTECH-EXPRESS, 2020.

Marc A. Rosen, “Engineering Sustainability: A Technical Approach to Sustainability”, Sustainability, 2012.

Evgenia Pavlovskaia, “Sustainability criteria: their indicators, control, and monitoring (with examples from the biofuel sector)”, Environmental Sciences Europe, 26, 2014.

National Research Council of the National Academies: Toward Sustainable Agricultural Systems in the 21st Century. Washington, DC: The National Academies, 2010.

V. Veleva and M. Ellenbecker, “Indicators of sustainable production: framework and methodology”, J. Cleaner Product, 9(6), pp. 519–549, 2001.

Abdullahi Tijjani and Salem Abdullah Bagaber, “Sustainability Considerations in Manufacturing and Operation Management”, International Journal of Scientific Engineering and Applied Science (IJSEAS), vol. 1, issue 4, July 2015.

F. Badurdeen, A. Jayal, and I. Jawahir, “Towardsa System Approach for Developing, Sustainable Products from Sustainable Manufacturing”, in Bangalore Workshop, Bangalore India, 2009.

C. Soderquist and S. Overakker, “Education for sustainable development: a systems thinking approach”, Global Environmental Research, 14, pp. 193–202, 2010.

F. Badurdeen et al., Sustainable Value Creation in Manufacturing at Product and Process Levels: Metrics-Based Evaluation, 2014.

I.S. Jawahir and Fazleena Badurdeen, “Innovation in sustainable manufacturing education”, 11th Global Conference on Sustainable Manufacturing, 2013.

L.Y. Ljungberg, “Materials selection and design for development of sustainable products”, Materials & Design, 28(2), pp. 466–479, 2007.

D.M. Shotylo, “The essence and content of the sustainability of the production system. Organization of production”, ECONOMINFO, no. 6, 2006.

A.A. Denisov, Sovremennye problemy sistemnogo analiza: uchebnik [Modern problems of system analysis: a textbook]. SPb.: 3-e izd. Politekhn. un-ta Publ, 2008, 304 p.

V.N. Volkova, A.V. Loginova, L.V. Chernenkaja, E.V. Romanova, Y.Y. Chernyy, and V.E. Lankin, “Problems of Sustainable Development of Socio-Economic Systems in the Implementation of Innovations”, Proceedings of the 3rd International Conference on Human Factors in Complex Technical Systems and Environments, Ergo-2018, 3, pp. 53–56.

V.N. Volkova and Yu.Yu. Chernyi, “Application of Systems Theory Laws for Investigating Information Security Problems”, Automatic Control and Computer Sciences, vol. 52, no. 8, pp. 1164–1170, 2018.

V.N. Volkova and V.Ye. Lankin, “Problema ustoychivosti sotsial’no-ekonomicheskoy sistemy v usloviyakh vnedreniya innovatsiy chetvertoy promyshlennoy revolyutsii [The problem of the sustainability of the socioeconomic system in the context of innovation of the fourth industrial revolution]”, Ekonomika i upravleniye: problemy i resheniya, 77 (6), pp. 25–29. 2018.

V. Volkova, A. Loginova, and A. Kudriavtceva, “Management of enterprise cyberphysical systems sustainable development while undergoing a digital transformation”, IOP Conference Series: Materials Science and Engineering, 940(1), 2020.

V. Volkova, F. Tarasenko, V. Kozlov, and A. Kudriavtceva, “On further development of the control theory of automated complexes in the information-communication technologies implementation”, Proceedings of the XI International Scientific Conference “Communicative strategies of Information Society”, 25–26 October 2019, Saint-Petersburg, Russia.

Downloads

Published

2021-09-14

Issue

Section

Theoretical and applied problems of intellectual systems for decision making support