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  5. The justification of modern approaches to processes automation of decision making for aircraft control

The justification of modern approaches to processes automation of decision making for aircraft control

N. Korolyuk, O. Pershin, T. Gridnyova, S. Shevchenko, M. Agapov
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Description: The article proposes a description of modern approaches to the automation of decision-making processes concerning the control of fighter aircraft using the approaches of fuzzy sets. The control of fighters is characterized by the influence of a large number of factors and the general tendency to complicate the situation, in which decisions are made. The Generalized rules` development for determining the method of guidance and the field of possible attacks on air targets is a complex logical and analytical task. Dynamic changes in the environment, hard time limitations, significant measurements, uncertainties and inconsistencies in the information being processed require substantiated and timely decision-making on aviation control. For the effective management of aviation, modification is proposed on fundamentally new bases, namely: automation of the process of determining the parameters of the projected impact of a fighter on air targets, taking into account the logic of the decision-making procedure.The final result of solving the problem of assumption the influences on the goal is evaluated qualitatively – by the capability of fighter's departure to a given tactical advantageous position, which is a drawback in making decisions. The general problem of developing and deciding on the fighter aviation control in extreme situations indicates the necessity to develop a new formal tool. It should guarantee the presentation of various information for the task of managing fighter aviation, harmonization within the framework of a single formalism. And the mechanism of access to models should provide automated search and decision making. The achieved results allow to increase the efficiency of fighter aviation control.


Keywords: logical-analytic problems, formalization, fuzzy set theory, subset, linguistic model

References

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Reference:
 Koroliuk, N.O., Pershyn, O.V., Hridnova, T.O., Shevchenko, S.O. and Ahapov, M.S. (2019), “Obhruntuvannia suchasnoho pidkhodu shchodo avtomatyzatsii protsesiv pryiniattia rishen po upravlinniu aviatsiieiu aparatu” [The justification of modern approaches to processes automation of decision making for aircraft control], Scientific Works of Kharkiv National Air Force University, Vol. 1(59), pp. 32-39. https://doi.org/10.30748/zhups.2019.59.04.