Development of a model of the information and analytical system for making decisions on detecting failures of information transmission channels
DOI:
https://doi.org/10.15587/1729-4061.2024.306179Keywords:
decision adequacy, verification, failure, simulation modeling, information, time matrix, model, Petri net, reliabilityAbstract
The object of the research is the channels of information transmission during the control of the information-analytical decision-making system. The development of high technologies and computing capabilities ensures the evolutionary development of smart technologies and socio-cyber-physical systems on the one hand. On the other hand, it forms the integration of targeted (mixed) attacks with the possibility of integration with social engineering methods. In addition, mobile technologies significantly increase the possibilities of data transmission speed. However, this only provides the authentication service, which does not provide a full range of security services. Under such conditions, an urgent task at the decision-making stage is the use of auxiliary systems that ensure the adequacy of decisions and the promptness of their adoption. The proposed mathematical model of the information and analytical system allows to calculate the main technical characteristics of information transmission channels and identify their possible failures. The use of an information and analytical system simplifies the decision-making process, allows to increase the reliability of such decisions due to an increase in the level of automation. Increasing the level of automation in the decision-making process removes subjective factors and the decision depends on the availability of information. Therefore, the reliability of the information transmission channels of the information and analytical system significantly affects the quality of the decisions made. The developed model allows to ensure the required level of reliability of information transmission channels. The obtained results are explained by determining the dependence between the parameters of the information and analytical system and their influence on the quality of information transmission through channels. The results of the study can be used in practice when considering systems with a limited number of states during operation
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Copyright (c) 2024 Olexander Shmatko, Serhii Yevseiev, Oleksandr Milov, Kostyantyn Sporyshev, Ivan Opirskyy, Sergey Glukhov, Yevhen Rudenko, Andrii Nalyvaiko, Serhii Dakov, Oleksandr Sampir
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