Development of methods for intelligent assessment of parameters in decision support systems

Authors

DOI:

https://doi.org/10.15587/1729-4061.2025.337528

Keywords:

artificial neural networks, improved genetic algorithm, destabilizing factors, metaheuristic algorithm

Abstract

The object of the study is decision support systems.

The subject of the study is the process of evaluating the parameters of decision support systems.

The problem addressed in the study is improving the reliability of parameter evaluation in decision support systems while ensuring the required operational efficiency, regardless of the volume of incoming data.

The originality of the proposed method lies in the application of additional advanced procedures, which enable the following:

– verification of the topology and parameters of decision support systems, taking into account the degree of uncertainty in the initial data, achieved through the use of an improved penguin colony algorithm;

– preliminary selection of individuals for configuring an evolving artificial neural network using an improved genetic algorithm, which reduces solution search time and increases the reliability of the obtained results;

– adjustment of the weights of the evolving artificial neural network, leading to improved accuracy in parameter evaluation of decision support systems;

– implementation of additional mechanisms for tuning the parameters of the evolving artificial neural network through modification of the membership function;

– enhancement of the reliability of parameter evaluation in decision support systems via parallel assessment using multiple evaluation methods;

– utilization of a hybrid evaluation of decision support system parameters, enabling correct operation in the absence of conditions such as stationarity, homogeneity, normality, and independence.

An example of applying the proposed methodology to the evaluation of decision support system parameters has been conducted. The experiment demonstrated an increase in the reliability of parameter evaluation by 17–21% through the use of additional procedures, while maintaining the specified level of operational efficiency

Author Biographies

Anastasiia Voznytsia, State University “Kyiv Aviation Institute”

PhD Student

Nataliia Sharonova, Kharkiv National Automobile and Highway University

Doctor of Technical Sciences, Professor

Department of Computer Science and Information Systems

Vitalina Babenko, V. N. Karazin Kharkiv National University

Doctor of Economic Sciences, Professor

Department of Mathematical Modeling and Data Analysis

Viktor Ostapchuk, Military Institute of Telecommunications and Informatization named after Heroes of Kruty

PhD, Researcher

Communication and Informatization Science Center

Serhii Neronov, Kharkiv National Automobile and Highway University

PhD, Senior Lecturer

Department of Computer Science and Information Systems

Serhii Feoktystov, National Aerospace University “Kharkiv Aviation Institute”

PhD Student

Department of Software Engineering

Roman Chetverikov, Odesа Polytechnic National University

PhD Student

Institute of Computer Systems

Oleksandr Prokopenko, National Defence University of Ukraine

PhD, Chief of the Research Laboratory

Research Laboratory for the Implementation of Social Communication and Public Diplomacy

Strategic Communications Institute

Ivan Starynskyi, National Defence University of Ukraine

Senior Researcher

Institute of Information and Communication Technologies and Cyber Defense

Maksym Stoichev, Military Institute of Telecommunications and Informatization named after Heroes of Kruty

Senior Lecturer

Department of Combat Use of Communication Units

References

  1. Bashkyrov, O. M., Kostyna, O. M., Shyshatskyi, A. V. (2015). Rozvytok intehrovanykh system zviazku ta peredachi danykh dlia potreb Zbroinykh Syl. Ozbroiennia ta viyskova tekhnika, 1, 35–39. Available at: http://nbuv.gov.ua/UJRN/ovt_2015_1_7
  2. Dudnyk, V., Sinenko, Y., Matsyk, M., Demchenko, Y., Zhyvotovskyi, R., Repilo, I. et al. (2020). Development of a method for training artificial neural networks for intelligent decision support systems. Eastern-European Journal of Enterprise Technologies, 3 (2 (105)), 37–47. https://doi.org/10.15587/1729-4061.2020.203301
  3. Sova, O., Shyshatskyi, A., Salnikova, O., Zhuk, O., Trotsko, O., Hrokholskyi, Y. (2021). Development of a method for assessment and forecasting of the radio electronic environment. EUREKA: Physics and Engineering, 4, 30–40. https://doi.org/10.21303/2461-4262.2021.001940
  4. Pievtsov, H., Turinskyi, O., Zhyvotovskyi, R., Sova, O., Zvieriev, O., Lanetskii, B., Shyshatskyi, A. (2020). Development of an advanced method of finding solutions for neuro-fuzzy expert systems of analysis of the radioelectronic situation. EUREKA: Physics and Engineering, 4, 78–89. https://doi.org/10.21303/2461-4262.2020.001353
  5. Zuiev, P., Zhyvotovskyi, R., Zvieriev, O., Hatsenko, S., Kuprii, V., Nakonechnyi, O. et al. (2020). Development of complex methodology of processing heterogeneous data in intelligent decision support systems. Eastern-European Journal of Enterprise Technologies, 4 (9 (106)), 14–23. https://doi.org/10.15587/1729-4061.2020.208554
  6. Shyshatskyi, A. (2020). Complex Methods of Processing Different Data in Intellectual Systems for Decision Support System. International Journal of Advanced Trends in Computer Science and Engineering, 9 (4), 5583–5590. https://doi.org/10.30534/ijatcse/2020/206942020
  7. Yeromina, N., Kurban, V., Mykus, S., Peredrii, O., Voloshchenko, O., Kosenko, V. et al. (2021). The Creation of the Database for Mobile Robots Navigation under the Conditions of Flexible Change of Flight Assignment. International Journal of Emerging Technology and Advanced Engineering, 11 (5), 37–44. https://doi.org/10.46338/ijetae0521_05
  8. Shyshatskyi, A., Stasiuk, T., Odarushchenko, E., Berezanska, K., Demianenko, H. (2023). Method of assessing the state of hierarchical objects based on bio-inspired algorithms. Advanced Information Systems, 7 (3), 44–48. https://doi.org/10.20998/2522-9052.2023.3.06
  9. Ko, Y.-C., Fujita, H. (2019). An evidential analytics for buried information in big data samples: Case study of semiconductor manufacturing. Information Sciences, 486, 190–203. https://doi.org/10.1016/j.ins.2019.01.079
  10. Ramaji, I. J., Memari, A. M. (2018). Interpretation of structural analytical models from the coordination view in building information models. Automation in Construction, 90, 117–133. https://doi.org/10.1016/j.autcon.2018.02.025
  11. Pérez-González, C. J., Colebrook, M., Roda-García, J. L., Rosa-Remedios, C. B. (2019). Developing a data analytics platform to support decision making in emergency and security management. Expert Systems with Applications, 120, 167–184. https://doi.org/10.1016/j.eswa.2018.11.023
  12. Chen, H. (2018). Evaluation of Personalized Service Level for Library Information Management Based on Fuzzy Analytic Hierarchy Process. Procedia Computer Science, 131, 952–958. https://doi.org/10.1016/j.procs.2018.04.233
  13. Chan, H. K., Sun, X., Chung, S.-H. (2019). When should fuzzy analytic hierarchy process be used instead of analytic hierarchy process? Decision Support Systems, 125, 113114. https://doi.org/10.1016/j.dss.2019.113114
  14. Osman, A. M. S. (2019). A novel big data analytics framework for smart cities. Future Generation Computer Systems, 91, 620–633. https://doi.org/10.1016/j.future.2018.06.046
  15. Gödri, I., Kardos, C., Pfeiffer, A., Váncza, J. (2019). Data analytics-based decision support workflow for high-mix low-volume production systems. CIRP Annals, 68 (1), 471–474. https://doi.org/10.1016/j.cirp.2019.04.001
  16. Harding, J. L. (2013). Data quality in the integration and analysis of data from multiple sources: some research challenges. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XL-2/W1, 59–63. https://doi.org/10.5194/isprsarchives-xl-2-w1-59-2013
  17. Kosko, B. (1986). Fuzzy cognitive maps. International Journal of Man-Machine Studies, 24 (1), 65–75. https://doi.org/10.1016/s0020-7373(86)80040-2
  18. Koval, M., Sova, O., Shyshatskyi, A., Artabaiev, Y., Garashchuk, N., Yivzhenko, Y. et al. (2022). Improving the method for increasing the efficiency of decision-making based on bio-inspired algorithms. Eastern-European Journal of Enterprise Technologies, 6 (4 (120)), 6–13. https://doi.org/10.15587/1729-4061.2022.268621
  19. Kashkevich, S. (Ed.) (2025). Decision support systems: mathematical support. Kharkiv: ТЕСHNOLOGY СЕNTЕR PC, 202. https://doi.org/10.15587/978-617-8360-13-9
  20. Litvinenko, O., Kashkevich, S., Shyshatskyi, A., Dmytriieva, O., Neronov, S., Plekhova, G. et al.; Shyshatskyi, A. (Ed.) (2024). Information and control systems: modelling and optimizations. Kharkiv: TECHNOLOGY CENTER PC, 180. https://doi.org/10.15587/978-617-8360-04-7
Development of methods for intelligent assessment of parameters in decision support systems

Downloads

Published

2025-08-30

How to Cite

Voznytsia, A., Sharonova, N., Babenko, V., Ostapchuk, V., Neronov, S., Feoktystov, S., Chetverikov, R., Prokopenko, O., Starynskyi, I., & Stoichev, M. (2025). Development of methods for intelligent assessment of parameters in decision support systems. Eastern-European Journal of Enterprise Technologies, 4(4 (136), 73–82. https://doi.org/10.15587/1729-4061.2025.337528

Issue

Vol. 4 No. 4 (136) (2025): Mathematics and Cybernetics - applied aspects

Section

Mathematics and Cybernetics - applied aspects

License

Copyright (c) 2025 Anastasiia Voznytsia, Nataliia Sharonova, Vitalina Babenko, Viktor Ostapchuk, Serhii Neronov, Serhii Feoktystov, Roman Chetverikov, Oleksandr Prokopenko, Ivan Starynskyi, Maksym Stoichev

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

The consolidation and conditions for the transfer of copyright (identification of authorship) is carried out in the License Agreement. In particular, the authors reserve the right to the authorship of their manuscript and transfer the first publication of this work to the journal under the terms of the Creative Commons CC BY license. At the same time, they have the right to conclude on their own additional agreements concerning the non-exclusive distribution of the work in the form in which it was published by this journal, but provided that the link to the first publication of the article in this journal is preserved.

A license agreement is a document in which the author warrants that he/she owns all copyright for the work (manuscript, article, etc.).
The authors, signing the License Agreement with TECHNOLOGY CENTER PC, have all rights to the further use of their work, provided that they link to our edition in which the work was published.
According to the terms of the License Agreement, the Publisher TECHNOLOGY CENTER PC does not take away your copyrights and receives permission from the authors to use and dissemination of the publication through the world's scientific resources (own electronic resources, scientometric databases, repositories, libraries, etc.).
In the absence of a signed License Agreement or in the absence of this agreement of identifiers allowing to identify the identity of the author, the editors have no right to work with the manuscript.
It is important to remember that there is another type of agreement between authors and publishers – when copyright is transferred from the authors to the publisher. In this case, the authors lose ownership of their work and may not use it in any way.