Development of a method of multi-criteria evaluation under uncertainty

Authors

DOI:

https://doi.org/10.15587/2706-5448.2022.253143

Keywords:

decision-making support systems, operational management, data transmission systems, multicriteria evaluation

Abstract

The object of research is decision-making support systems. Local wars and armed conflicts of recent decades are characterized by high dynamics of operations (combat operations) and a significant amount of diverse information circulating in information systems. These features determine the search for new approaches to increase the efficiency of decision-making support systems, given their reliability. This article solves the problem of developing a method of multicriteria evaluation in conditions of uncertainty.

In the course of the research, the authors used the main provisions of the theory of artificial intelligence, automation theory, theory of complex technical systems and general scientific methods of cognition, namely analysis and synthesis. The proposed methodology was developed taking into account the practical experience of the authors of this work during the military conflicts of the last decade. The method of multicriteria evaluation is universal and can be used to assess the state of the objects of analysis of any architecture. The results of the research will be useful in:

– development of new control algorithms in decision-making support systems;

– substantiation of recommendations for improving the efficiency of operational management;

– analysis of analysis (monitoring) objects in the course of hostilities (operations);

– creation of perspective technologies to increase the efficiency of operational management;

– assessment of the adequacy, reliability, sensitivity of the scientific and methodological apparatus of operational management in decision-making support systems;

– development of new and improvement of existing management models.

Areas of further research will be aimed at developing a methodology for intelligent management in special-purpose decision-making support systems.

Author Biographies

Oleg Sova, Military Institute of Telecommunications and Information Technologies named after Heroes of Kruty

Doctor of Technical Sciences, Senior Researcher, Head of Department

Department of Automated Control Systems

Andrii Shyshatskyi, Central Scientific Research Institute of Armament and Military Equipment of the Armed Forces of Ukraine

PhD, Senior Researcher

Research Department of Electronic Warfare Development

Oleksii Nalapko, Central Scientific Research Institute of Armament and Military Equipment of the Armed Forces of Ukraine

PhD, Senior Researcher

Research Laboratory of Automation of Scientific Research

Halyna Marchenko, Poltava University of Economics and Trade

Postgraduate Student

Department of Finance and Banking

Oleksandr Trotsko, Military Institute of Telecommunications and Information Technologies named after Heroes of Kruty

PhD, Associate Professor

Department of Automated Control Systems

Oleksandr Symonenko, Military Institute of Telecommunications and Information Technologies named after Heroes of Kruty

PhD, Senior Lecturer

Department of Automated Control Systems

Dmytro Merkotan, Military Institute of Telecommunications and Information Technologies named after Heroes of Kruty

Lecturer

Department of Automated Control Systems

Anna Lyashenko, Military Institute of Telecommunications and Information Technologies named after Heroes of Kruty

Researcher

Scientific Center

Oksana Havryliuk, Military Institute of Telecommunications and Information Technologies named after Heroes of Kruty

Researcher

Scientific Center

Vira Velychko, Military Institute of Telecommunications and Information Technologies named after Heroes of Kruty

Lecturer

Department of Automated Control Systems

References

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Published

2022-02-23

How to Cite

Sova, O., Shyshatskyi, A., Nalapko, O., Marchenko, H., Trotsko, O., Symonenko, O., Merkotan, D., Lyashenko, A., Havryliuk, O., & Velychko, V. (2022). Development of a method of multi-criteria evaluation under uncertainty. Technology Audit and Production Reserves, 1(2(63), 41–45. https://doi.org/10.15587/2706-5448.2022.253143

Issue

Section

Systems and Control Processes: Reports on Research Projects