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Diagnostics of flight personnel using flight simulators data

Keywords:

L.S. Kuravsky – Dr.Sc. (Eng.), Professor, Dean of Computer Science Faculty, Moscow State University of Psychology and Education. E-mail: l.s.kuravsky@gmail.com
P.A. Marmalyuk – Ph.D. (Eng.), Associate Professor, Computer Science Faculty, Moscow State University of Psychology and Education. E-mail: ykk.mail@gmail.com
G.A. Yuryev – Ph.D. (Phys.-Math.), Associate Professor, Computer Science Faculty, Moscow State University of Psychology and Education. E-mail: nezdeshni@gmail.com
S.N. Baranov – Ph.D. (Eng.), General Director, Russian Aviation Company (Moscow). E-mail: rusavia@rusavia.com
G.N. Poleshchuk – Head of Design Bureau, CSTS «Dynamika» (Moscow). E-mail: poleschuk@dinamika-avia.ru
A.A. Smirnov – Chief Engineer-Programmer, CSTS «Dynamika» (Moscow). E-mail: smirnov_a_a_@mail.ru A.N. Shishov – Leading Engineer, Pilot-Instructor, CSTS «Dynamika» (Moscow)


Presented is a new technology for diagnostics of flight personnel using flight simulators data, which is based on probabilistic estimations of the likelihood and multifactor Markov models to be identified. Goodness-of-fit evaluations for these models are determined with the aid of statistical tests. To solve the identification problem, a numerical procedure of multi-dimensional non-linear optimization is performed, which provides the solution of an inverse problem for the continuous-time discrete-state Markov model Kolmogorov differential equations system. As a result of its solution, a set of free parameters estimations is obtained, which determines the system of equations yielding time probability functions which approximate a sample probability distribution at the given time points. The classifier-building technique, which makes it possible to assess a degree of correspondence between observed data and reference distributions identified for different diagnosed groups, is considered. The approach in question was practically applied for diagnostics of flight personnel using helicopter flight simulator data.
References:

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