Simulation systems for Unmanned Aerial Vehicles

• Autorzy: Kurzeja Antoni , Sobczak Łukasz
• Języki publikacji: EN

Abstrakty

EN

In the presented article authors will discuss the most important types of solutions dedicated for simulation and training of unmanned aerial vehicles crews used on the civil and military market. The article will also discuss the directions of systems development and the emerging possibilities of modern simulation, Image Generation and visualization methods that can be successfully used in modern simulation systems dedicated to training crews, maintenance teams and commanders using Unmanned Aerial Vehicles. The techniques presented, such as augmented reality, extending into the civilian mixed reality market or the "classic" virtual reality due to its unique capabilities, can be used in many ways, which the author will try to bring in discuss it potentia I fields of use and profits from the use of individual methods.

Słowa kluczowe

EN

simulation; training; augmented reality; virtual reality; military simulation

• Wydawca: Wydawnictwo Wyższej Szkoły Technicznej w Katowicach
• Czasopismo: Zeszyty Naukowe Wyższej Szkoły Technicznej w Katowicach
• Rocznik: 2018
• Tom: nr 10
• Strony: 157--168
• Opis fizyczny: Bibliogr. 11 poz., rys.

Twórcy

autor

Kurzeja Antoni

• Ośrodek Badawczo-Rozwojowy Urządzeń Mechanicznych „OBRUM" sp. z o.o. 44-117 Gliwice, ul. Toszecka 102

autor

Sobczak Łukasz

• Ośrodek Badawczo-Rozwojowy Urządzeń Mechanicznych „OBRUM" sp. z o.o. 44-117 Gliwice, ul. Toszecka 102

Bibliografia

• [1] Kolasinski E.M.: Simulator sickness in virtual environments, U.S. Army Research Institute, 1995
• [2] J. Munafo M. Diedrick T.A. Stoffregen,: The virtual reality head-mounted display Oculus Rift induces motion sickness and is sexist in its effects, Springer 2016
• [3] Lu D.: Virtual Reality sickness du ring immersion: An investigation of potential obstacles towards general accessibility of VR technology, Uppsala University, 2016
• [4] Pardel P.: Przegląd ważniejszych zagadnień Rozszerzonej Rzeczywistości, Studia lnformatica, Politechnika Śląska, 2009
• [5] Ruano S., Cuevas C., Gall ego G., Garcia N.: Augmented Reality Tool for the Situational Awareness lmprovement of UAV Operators, University of Zurich, 2017
• [6] [Dostęp: https://www.faa.gov/news/u pdates/?newsld=89870]
• [7] Kalasova, A., Kubfkova, S.: The interaction of safety and intelligent transport systems in road transport. In: Young researches seminar 2015 [electronic source]: June 17-19, Sapienza - Universita di Roma. - [S.I.: S.n.J, 2015. - CD-ROM, s. 3-13.
• [8] Warmate [online], WB Electronics, [accessed: March 1, 2018], available online: http://wb.com.pl/warmate-en/?lang=en
• [9] SmartCam3D - View Live or Archived Full Motion Video with Augmented Reality Map Overlays. [online]. SmartCam3D, [accessed: March 1, 2018], available online: https://leslie-clark-yjy4.squarespace.com/augmentedrealitymapping-2/
• [10] Frederic Lardinois, Edgybees raises $5.SM to bring better AR to cars and drones, Techcrunch, 2018, [accessed: March 1, 2018], available online: https://techcrunch.com/2018/02/28/edgybees-raises-5-5m-to-bring-better-ar-to-cars-and-d rones/
• [11] Ben Popper, Epson's AR simulator puts a holographic drone in your living room, The Verge, 2017, [accessed: March 1, 2018], available online: https://www.theverge.com/2017/11/6/16612450/epson-moverio-oji-mavic-ar-augmented-rea lity-drone-flight-simulator

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).