Engineering Journal: Science and InnovationELECTRONIC SCIENCE AND ENGINEERING PUBLICATION
Certificate of Registration Media number Эл #ФС77-53688 of 17 April 2013. ISSN 2308-6033. DOI 10.18698/2308-6033
  • Русский
  • Английский
Article

Dynamic stand for assessing the time spent on human operator thinking forms

Published: 26.09.2019

Authors: Pupkov K.A., Levadko A.D., Lukyanova N.V., Novikova V.A., Htun Ney Zin, Polyakova A.A., Sadovnikov A.E., Trifonov O.P., Ustyuzhanin A.D.

Published in issue: #9(93)/2019

DOI: 10.18698/2308-6033-2019-9-1915

Category: Mechanics | Chapter: Biomechanics and Bioengineering

The paper considers design features and functionality of the dynamic stand for assessing the time spent on human operator thinking forms during the hidden (latent) period as information passes through the brain according to experimental data working in Man-Machine Systems. This research is of interest as such a system is intellectual, so it is necessary to determine the pure delay time spent to implement thinking forms for assessing the quality of decisions made by a human operator in the control process. The study shows that a number of Wiener orthogonal G-functionals provides the most complete and rigorous human operator dynamics description and mathematical capabilities for calculating the necessary delay time.


References
[1] Sheridan T.B., Ferrell W.R. Man-Machine Systems: Information, Control, and Decision Models of Human Performance. MIT Press, 1981, 472 p. [In Russ.: Sheridan T.B., Ferrell W.R. Sistemy «chelovek-mashina». Moscow, Mashinostroenie Publ., 1980, 399 p.].
[2] Obolensky Yu.G. Upravlenie poletom reaktivnykh samoletov [Jet flight control]. Moscow, Voenizdat Publ., 2000, 320 p.
[3] Ponomarenko A.V., Vasilets V.M., Mikhaylov V.V., et al. Intellektualnye interaktivnye uchebno-trenirovochnye kompleksy [Intelligent interactive training complexes]. Moscow, Voenizdat Publ., 2006, 255 p.
[4] Fedorova S.M., et al. Avtomatizirovannoe upravlenie samoletami i vertoletami [Automated control of airplanes and helicopters]. Moscow, Transport Publ., 1977, 246 p.
[5] Pupkoff K. The Optimization of connection between Human being and techniques in Man-Machine Systems. Preprint of the IFAC-IFORS Symposium (Warna, Bulgaria, 8–10 Oct.), 1974, pp. 419–426.
[6] Ustyuzhanin A.D., Sheridan T., Pupkov K.A., Mc. Ruer P., Krendel E. Limited parameters of dynamic characteristics of a Human-operator when operating objects of different types. Proc. of European Conference for Sciences. Moscow, Russia, July 4, 2005.
[7] Ustyuzhanin A.D., Pupkov K.A. Dinamicheskaya identifikatsiya i otsenivaniye sostoyaniya cheloveka-operatora v sistemakh chelovek — mashina [Dynamic identification and assessment of the state of the human operator in human-machine systems]. Moscow, RUDN Publ., 2011, 180 p.
[8] Pupkov K.A. Vestnik RUDN, seriya Inzhenernye issledovaniya — RUDN Journal of Engineering Researches, 2015, no. 4 pp. 7–17.
[9] Ochs S. Elements of neurophysiology. J. Wiley, 1965, 621 p. [In Russ.: S. Ochs. Osnovy neyrofiziologii. Moscow, Mir Publ., 1969, 448 p.].
[10] Pupkov K.A., ed. Osnovy kibernetiki. Teoriya kiberneticheskikh system [The basics of cybernetics. Theory of Cybernetic Systems]. Moscow, Vysshaya shkola Publ., 1976, 408 p.