PROCESSING OF FLIGHT INFORMATION OF OBJECTIVE CONTROL SYSTEMS UNDER THE CONSIDERATION OF FACTOR RESONANCE

Authors

  • H. A. Polozhevets National Aviation University, Kyiv

DOI:

https://doi.org/10.18372/1990-5548.59.13643

Keywords:

Objective control systems, factor resonance phenomenon, multifactor resonance, entropy models, task of accounting a large number of factors, flight information processing, process analysis

Abstract

In the article, flights are considered as extremely complex multifactorial resonance processes. The issue is focused on the complexity of the application of the objective control systems data in airlines that use graphs (oscillograms) of flight transcripts. A new method of processing data on objective control systems is proposed – the transition from graphs of the objective control systems to flight management cards for determining the factor resonance phenomenon. Such cards are universal and can be applied on a single form as flight crews and airline managers. Entropy models are used that describe the interaction of a large number of factors. It leads to an increase the amplitude of the oscillatory process of the parameters of flight and called the phenomenon of factor resonance. The proposed processing of flight information of objective control systems allows consideration of factor resonance.

Author Biography

H. A. Polozhevets, National Aviation University, Kyiv

Avionics Department, Education & Research Instituteof Air Navigation, Electronics and Telecommunications

Candidate of Science (Engineering). Associate Professor

orcid.org/0000-0003-0986-6559

References

Manual of Aircraft Accident and Incident Investigation/ Doc 9756 AN/965. - Part IV: Reporting Approved by the Secretary General and published under his authority. Second Edition – 2014 International Civil Aviation Organization.

Annex 19 to the Convention on International Civil Aviation/ Safety Management. Second Edition, July 2016.

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H. Polozhevets and V. Boglachev, "Generalization of the experience of factor resonance in the safety manag ement," Problems of navigation and traffic control: All-Ukrainian scientific and practical conference of young scientists and students, November 22-24, 2017: abstracts of the report. Kyiv, 2017, 81 p.

H. А. Polozhevets, E. M. Khokhlov, B. A. Chebukin, and S. S. Derets, "The basics of anti-fault analysis in aerospace avionics systems," Integrated intellectual robotechnical complexes: 11th International science and technical conference, May 22-23th, 2018. Kyiv, pp. 62–64.

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TRANSPORT SYSTEMS