STRUCTURE AND REQUIREMENTS FOR A UNIVERSAL TRAINING DEVICE FOR UNMANNED AIRCRAFT COMPLEXES
Keywords:training of personnel for operation of unmanned aerial vehicles, types of aviation simulators, knowledge, skills and abilities of staff, automated control system, functions and structure of the universal simulator for learning
The problems of personnel training for the operation of unmanned aerial vehicles have been updated. The differences between the skills and abilities of personnel for manned and unmanned aircraft are highlighted. The widespread types of flight simulators are considered, their features are given. The basic schemes of application of linear and nonlinear mathematical models of formation (formalization) of knowledge, abilities and skills of the personnel taking into account absence / presence of updating of the information in the course of training are substantiated.
The basic modes of operation of USL, the universal simulator for training are specified. Emphasis is placed on the fact that USL is a partial case of an automated training management system (ACS), and a block diagram of training with it is given. The tasks that can be solved on a universal simulator and the requirements for software and hardware, automated workplace, digital sound, general software, peripherals, data exchange, digital video, user interface and webbased automated instructions are discussed in detail. The functions and structure of the universal simulator for training unmanned aircraft complex are presented.
Makhitko V.P., Dmitrienko G.V., Gavrilova E.A. Assessment of risks and hazards in the aircraft flight safety system // Izvestia of the Samara Scientific Center of the Russian Academy of Sciences, vol. 19, No. 4 (2), 2017.
Stephen D. Roberts, Dennis Pegden. The history of simulation modeling.// WSC ‘17: Proceedings of the 2017 Winter Simulation Conference December 2017 Article No.: 18. Pages 1–16
Chris J. Hodson. Civil Airworthiness for a UAV Control Station [Text]: This report is submitted to satisfy the project requirements of the Master of Science in Safety Critical Systems Engineering at the Department of Computer Science/Chris J. Hodson. – September 2008. – 119 p. Access: https://www-users.cs.york. ac.uk/~mark/projects/cjh507_project.pdf
Joetey Attariwala. Simulation and training evolution for pilots.// Journal «Аirmed & Rescue». Issue No 99. 2019. Pages 19-25. Access: www.airmedandrescue.com/latest/long-read/simulation-and-training-evolution-pilots
Matiychyk M.P. The concept of training pilots of unmanned aerial vehicles. // Bulletin of the National Aviation University.- Kyiv, 2005, №1, pp. 88-93.
Ivanov A.K. Mathematical models of knowledge management in design organizations. Magazine. Automation of management processes No. 2 (48) 2017. From 12-23 Access: http://apu. npomars.com/images/pdf/48_2.pdf
Zlotnikov K.A., Kudryavtsev A.N. Topical issues of creating automated training systems for specialists in managing complexes with unmanned aerial vehicles. // Prospects for the development and use of complexes with unmanned aerial vehicles, collection of scientific reports and articles based on the materials of the 2nd Scientific and Practical Conference. - Kolomna: 924. GC BPA, 2017. c. 91-97. Access:https://www.twirpx.com/file/2832863/
Official web page AICC. Access: https:// trainingindustry.com/glossary/aicc/
Nuriev N.K., Starygina S.D., Akhmetshin D.A. Didactic engineering: software design for the technogenic social and educational environment of the university. // Bulletin of Kazan Technological University. 2015. T18. No. 24. from 109-113.
Fedotov A.S. Analysis of the automated workplace as a design object. Electronic resource. Access: https://cyberleninka.ru/article/n/analiz-avtomatizirovannogo-rabochego-mesta-kak-obekta-proektirovaniya/viewer.
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