International Journal of Open Information Technologies

Given the growing importance of the human factor as the cause of flight accidents and the active development of aviation technology, this study focuses on creating an aircraft pilot integrated model. This model is designed to validate advanced crew cockpits and on-board equipment sets, taking into account the psychophysiological and cognitive aspects of pilots' activities. The article describes the conceptual foundations of the pilot model, its structure, including a psychophysiological module and modules for simulating and visualizing pilot activity. The results of the model integration into the prototyping bench, modeling the crew cockpit and the complex of on-board equipment of an advanced aircraft and preliminary testing of the pilot model components as part of this prototyping bench are presented. The results of the researching demonstrate the potential of the model to be used as a means of validating promising solutions implemented on board aircraft. Individual components of the model can be used directly on board the aircraft, as a means of control and intellectual support for the pilot, as well as for forming control commands into the navigation system in difficult flight modes.

L.E. Mehantieva, A.V Masalytin., A.N. Lisnev, “Analysis of the largest passenger aircraft crashes of the beginning of the XXI century, Applied information aspects of medicine, vol. 20, no. 3, p.183, 2017. [In Rus]

L.S. Kuravsky, G.A. Yuryev, “A novel approach for recognizing abnormal activities of operators of complex technical systems: three non-standard metrics for comparing performance patterns,” International Journal of Advanced Research in Engineering and Technology, vol. 11, no. 4, 2020.

L.S. Kuravsky, G.A. Yuryev, V.I. Zlatomrezhev, N.E. Yuryeva, “Assessing the Aircraft Crew Actions with the Aid of a Human Factor Risk Model,” Experimental Psychology (Russia), vol. 13, no. 2, pp. 153-181, 2020. DOI: 10.17759/exppsy.2020130211.

S. V. Klaucek, “Psychophysiological modeling of professional stress of a human operator,” In Scientific heritage of academician P.K. Anokhin and its development in the works of Volgograd scientists, Materials of the regional scientific and practical conference dedicated to the 100th anniversary of the birth of academician P.K. Anokhin, Volgograd, February 26-27, 1998. Vol. 1, Volgograd: Volgograd Medical Academy, 1998, pp. 52-53. [In Rus]

V.M. Natalyin, “Modeling of pilot control actions in special situations” Scientific Bulletin of the Moscow State Technical University of Civil Aviation, no. 138, pp. 205-209, 2009. [In Rus]

E.P. Ilyin, Human psychophysiology. St. Petersburg: Peter, 2005. [In Rus]

L.S. Kuravsky, G.A. Yuryev, I.I. Greshnikov et al., “Assessing the Pilot Condition According to Video Oculography Data and Parameters of Brain Alpha Rhythms by Modeling the Neural Activity,” Experimental Psychology (Russia), vol. 15, no. 2, pp. 194-212, 2022. DOI: 10.17759/exppsy.2022150214. [In Rus]

L.S. Kuravsky, G.A. Yuryev, V.I. Zlatomrezhev, N.E. Yuryeva, “Assessment of the actions of the aircraft crew based on the human factor risk model,” Experimental psychology, vol. 13, no. 2, pp. 153-181, 2020. DOI: 10.17759/exppsy.2020130211. [In Rus]

Certificate of state registration of the computer program No. 2021668683 Russian Federation. "The Intelligent System for Flight Analysis v. 3.3" (ISFA v. 3.3) : No. 2021668197 : application 17.11.2021 : publ. 18.11.2021 / L. S. Kuravsky, N. E. Yuriev, G. A. Yuriev [et al.] ; applicant Federal State Unitary Enterprise Scientific Research Institute of Aviation Systems.. [In Rus]

V.N. Afanasyev, V.B. Kolmanovsky, V.R. Nosov, Mathematical theory of control systems. M., Higher School, 2003. [In Rus]

L.S. Kuravsky, I.I. Greshnikov, G.A. Yuryev, V.I. Zlatomrezhev, “Synthesis of Civil Aircraft Control Using Empirical Data and Quantum Filtering,” Lobachevskii J. Math., vol. 44, no. 6, pp. 2079–2100, 2023.

L.S. Kuravsky, P.A Marmalyuk, G.A. Yuryev, O.B. Belyaeva, O.Yu. Prokopieva, “Mathematical Foundations of Flight Crew Diagnostics Based on Videooculography Data,” Applied Mathematical Sciences, vol. 10, no. 30, pp. 1449—1466, 2016. DOI: 10.12988/ams.2016.6122.