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Python programming language as a tool for creating three-dimensional figures of glider aerobatics

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EN
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EN
The article presents the possibilities and validity of the implementation in the field of developing mathematical models for aerobatics trajectory. Proposing a catalogue of three-dimensional figures and those described mathematically will allow improving judging and scoring level, as well as the art of piloting in aerobatics. In the first chapter, article describes the processes of aerobatic flight, judge evaluation method and the current state of technology supporting the scoring process. The second chapter presents the capabilities of the Python programming language, which will be a tool for the construction of three-dimensional models. The third chapter of this article is a description of the comparative analysis of ideal trajectories and obtained in real flight. This chapter also demonstrates the validity and necessity of introducing new standards for assessing aerobatic flights. Aerobatics flights and judging, intelligent system to control aerobatic flights, three-dimensional models of aerobatic flights are presented in the article. The article concerns on use modern technologies to support the judges during the competition. The introduction of ASSD + PL system and the possibility of implementing designed models of aerobatic figures open new paths for improving the art of pilotage and arbitration.
Twórcy
autor
  • Poznan University of Technology Faculty of Machines and Transport Piotrowo Street 3, 60-965 Poznan, Poland tel.: +48 506 048 036, +48 61 6652213
  • Poznan University of Technology Faculty of Machines and Transport Piotrowo Street 3, 60-965 Poznan, Poland tel.: +48 506 048 036, +48 61 6652213
Bibliografia
  • [1] Linka, A., Wróblewska, A., Mathematical and graphical modelling of aerobatic flight trajectory, Journal of KONES, Vol. 24, No. 3, pp. 181-187, 2017.
  • [2] Linka, A., Frąckowiak, A., Wróblewska, A., Methodology for the calculating judges rates in the context of an aerobatic competition, Journal of KONBIN, 2017.
  • [3] https://www.aopa.org/news-and-media/all-news/2015/august/10/humble-pie, access 17.05.2018.
  • [4] https://www.aerobatics.org.uk/judging/why, access 17.05.2018.
  • [5] www.fai.org/civa-our-sport/civa-fair-play-system-fps, access 02.08.2016.
  • [6] A short guide to how the FairPlay System (FPS) works, www.exploitdesign.com/aerosoftware, access 20.07.2016.
  • [7] www.aerobatics.org.uk/contest/scoring, access 20.07.2016.
  • [8] http://www.taphilo.com/rc/maneuver.shtml, access 20.06.2017.
  • [9] Krupa, W., Linka, A., Wróblewska, A., An intelligent system of supervision and safety of flight operations, conference materials, Nauka dla Obronności Kraju, Poznań 2015.
  • [10] http://www.aerosafety.pl/gs-system-2/, access 20.06.2018.
  • [11] Beeler, S. C., Moerder, D. D., Cox, D. E., A flight dynamics model for a small glider in AmbientWinds, NationalAeronautics and Space Administration, Hampton, Virginia 2003.
  • [12] Nonlinear Stability and Control of Gliding Vehicles, A Dissertation Presented to the Faculty of Princeton University in Candidacy for the Degree of Doctor of Philosophy, 2006.
  • [13] Cook, M. V., Spottiswoode, M., Modelling the flight dynamics of the hang glider, The Aeronautical Journal, Cambridge University Press, 2016.
  • [14] Crassidis, J. L., Markley, F. L., Anthony, T. C., Andrews, S. F., Nonlinear predictive control of spacecraft, Journal of Guidance, Control and Dynamics, Vol. 20, No. 6, pp. 1096-1103, 1997.
  • [15] Winkowski, J., A mathematical model of action, Instytut Podstaw Informatyki Polskiej Akademii Nauk, Warszawa 2014.
  • [16] Stengel, R. F., Flight Dynamics, Princeton University Press, 2004.
  • [17] Stengel, R. F., Aircraft Flight Dynamics, Princeton University Press, 2014.
  • [18] Cook, M. V., Flight Dynamics Principles, Arnold, London 1997.
  • [19] Van der Plas, H., Visser, H. G., Trajectory optimisation of an aerobatic air race, The Aeronautical Journal, Cambridge University Press, 2016
  • [20] http://www.python.rk.edu.pl/w/p/python-co-jest-i-do-czego-mozna-go-uzyc/, access 20.06.2018.
  • [21] Pietrasieński, J., Rodzik, D., Siergiejuk, P., Grzywiński, S., Wykorzystanie języka programowania Python i biblioteki Opencascade do wizualizacji i obliczeń geometrycznych, XVII Międzynarodowa Szkoła Komputerowego Wspomagania Projektowania, Wytwarzania i Eksploatacji, Mechanik 7/2013.
  • [22] https://wyomingkingblog.weebly.com/blog/january-6-2014-analysis-of-python-graphics, access 2.07.2018.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-fa2f89e5-c9d4-41cf-8889-e010078d3eb4
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