Models for development of the information-control complex of the enterprise




control system, enterprise architecture, engineering, information-control/management complex


This article provides a brief analysis of the development of concepts and terms used in the automation the processes of production and enterprise management. The conclusion is made about the preference of the term “information-control complex” (ICC) of the enterprise and the expediency of using various concepts in its creation. A model for the development of ICC is proposed, based on the definition of a system that implements the system-target approach, and the “engineering” concept.

Author Biographies

Violetta Volkova, Peter the Great St. Petersburg Polytechnic University, St. Petersburg

Violetta N. Volkova, Doctor of Economics, a professor at Peter the Great St. Petersburg Polytechnic University, St. Petersburg, Russia.

Alla Leonova, Scientific Research Center for Electronic Computing JSC “NITSEVT”, Moscow

Alla E. Leonova, the head of the Department of Strategic Analysis and Information Interaction of the Scientific Research Center for Electronic Computing JSC “NITSEVT”, Moscow, Russia.

Alexandra Loginova, Peter the Great St. Petersburg Polytechnic University, St. Petersburg

Alexandra V. Loginova, Candidate of Economic Sciences (Ph.D.), an associate professor at Peter the Great St. Petersburg Polytechnic University, St. Petersburg, Russia.


J.A. Zachman, “The structure of information systems architecture”, IBM Systems Journal, vol. 26, no. 3, 1987.

E.Z. Zinder, “New system design: information technology and system design”, DBMS, no. 4, 1, 1995.

E.Z. Zinder, “3D-enterprise – a model of a transforming system”, Director of Information Service, no. 4.

A. Danilin and A. Slyusarenko, Architecture and Strategy. “Yin” and “Yang” of information technologies. M.: Internet University of Information Technologies, 2005.

R. Sessions, Comparison of the four leading architecture building methodologies, 2007. Available:

S. Kotusev, “TOGAF: Just the Next Fad That Turned into a New Religion”, TOGAF Is Not an EA Framework: The Inconvenient Pragmatic Truth, K.L. Smith (ed.), Great Notley, UK: Pragmatic EA Ltd., 2018, pp. 27–40.

Cole Perks and Tony Beveridge, Enterprise IT Architecture Guide. New York, NY: Springer, 2003.

Scott R. Bittler and Greg Kreutzman, Gartner Enterprise Architecture Process: Development, 2005.

N. Dedic, “FEAMI: A Methodology to include and to integrate Enterprise Architecture Processes into Existing Organizational Processes”, IEEE Engineering Management Review. doi: 10.1109/EMR.2020.3031968.

W.J. Clinton and A. Gore, “Technology for America's Economic Growth, a New Direction to Build”, Executive Office of the President. Washington, DC, 1993, 39 pp.

V.N. Volkova, “Razvitiye opredeleniya sistemy [System definition development]”, Mater. Mezhdunarodnoy nauchno-prakticheskoy konferentsii "Sistemnyy analiz proyektirovaniya i upravleniya": sb. SPb.: Izd-vo SPbGPU, 2001, pp. 12–14.

R.L. Ackoff, Re-Creating the Corporation: A Design of Organization for the 21st Century. New York, Oxford: Oxford University Press, 1999.

Thomas L. Saaty and Kevin P. Kearns, Analytical Planning: The Organization of Systems, 1985.

G.S. Pospelov and V.A. Irikov, Programmno-tselevoye planirovaniye i upravleniye [Target planning and management]. M.: Sov. radio, 1976, 440 p.

A.A. Denisov, Sovremennyye problemy sistemnogo analiza [Modern problems of systems analysis]. SPb.: Izd-vo Politekhn. un-ta, 2008, 304 p.

V.N. Volkova and V.N. Kozlov (eds.), Modelirovaniye sistem i protsessov [Modeling systems and processes]. M.: Yurayt Publ., 2015, 449 p.

N.D. Pankratova, Sistemniy analíz. Teoríya ta zastosuvannya [System analysis. Theory and application]. Kiív: Naukova dumka, 2018, 347 p.

GOST R 57306-2016. Engineering. Terminology and basic concepts in the field of engineering. Available:

ISO/IEC 15288: (IEEE Std 15288–2008). Systems and Software Engineering — System Life Cycle Processes. International Organization for Standardization.

L. von Bertalanfy, “System Theory – a Critical Review”, General System, vol. 7, pp. 1–20, 1962.

E. Bauer, Teoreticheskaya biologiya [Theoretical biology]. M.L.: VIEM Padl., 1935, 206 p.

A.L. Shamis, Modeli povedeniya, vospriyatiya i myshleniya [Models of behavior, perception and thinking]. M.: Intuit, 2010, 230 p.

V.N. Volkova, V.I. Karpov, A.E. Leonova, A.V. Loginova, and E.V.L. Romanova, “Concept of engineering as a basis for development cyber-physical system”, CEUR Workshop Proceedings, 2019.

V.N. Volkova, Yu.A. Golub, and A.V. Loginova, “Multilevel Model for Management the Regional System of Training in Conditions of Introducing Digital Technologies”, Proceedings of 2018 17th Russian Scientific and Practical Conference on Planning and Teaching Engineering Staff for the Industrial and Economic Complex of the Region, PTES 2018, pp, 181–184, 8604276.

V.N. Volkova, A.S. Kudryavtseva, A.V. Loginova, Y.Y. Chernyy, and A.E. Leonova, “System Analysis of Innovative Technologies of the Industrial Revolutions”, Proceedings of the 3rd International Conference Ergo-2018: Human Factors in Complex Technical Systems and Environments, Ergo 2018, pp. 57–61.

V. Volkova, A. Leonova, A. Loginova, and Y.Chernyy, “System analysis of the development of information-communication technologies”, CSIS’2019: XI International Scientific Conference Communicative Strategies of the Information Society, ACM International Conference Proceeding Series, ACM, New York, 2019, pp. 1–6. Available:

V.N. Volkova, A.E. Leonova, E.V. Romanova, and Y.Y. Chernyy, “Engineering as a Coordinating Method for the Development of the Organization and Society”, Lecture Notes in Networks and Systems, 184, pp. 12–21, 2021.

V. Volkova, G. Gorelova, and N. Pankratova, “The Development of the Cyberphysical System Concept on Base of the Interdisciplinary Theories”, IEEE 2nd International Conference on System Analysis and Intelligent Computing, SAIC 2020, 9239213.

V.N. Volkova, B.S. Fleishman, F.P. Tarasenko, and A.V. Loginova, “Further Development of Potential Feasibility Theory for Complicated Systems According to the Unified General-System Principle”, Lecture Notes in Networks and Systems, 184, pp. 446–453, 2021.

N. Pankratova, P. Bidyuk, and I. Golinko, “Decision support system for microclimate control at large industrial enterprises”, CEUR Workshop Proceedings, pp. 489–498, 2020.

N. Pankratova, P. Bidyuk, and I. Golinko, “Synthesis of a multidimensional control system for a precision complex of artificial microclimate”, System Research & Information Technologies, no. 1, pp. 7–20, 2020. doi: 2308-8893.2020.1.01

Ye.S. Kuzin, Predstavleniye znaniy i resheniye informatsionno-slozhnykh zadach v komp'yuternykh sistemakh [Representation of knowledge and solution of information-complex problems in computer systems]. M.: Novyye tekhnologi, 2004, 32 p.

E.Z. Zinder, “Values-directed enterprise engineering”, Business Informatics, no. 3 (45), pp. 7–19, 2018.






Methods of system analysis and control in conditions of risk and uncertainty