A. V. Maltsev, D. V. Omelchenko The Technology of VR Equipment Interaction with Software Components of Virtual Environment System
A. V. Maltsev, D. V. Omelchenko The Technology of VR Equipment Interaction with Software Components of Virtual Environment System

The paper presents an implementation of information communication between various software components of virtual environment system and virtual reality (VR) devices, using the example of Oculus Rift VR headset, Oculus Touch controllers and Oculus Remote. The original approach is proposed to create a block for control scheme of virtual observer by means of data transmission via network connection.


virtual environment, control, network, visualization, stereo, three-dimensional scene, VR headset.

PP. 5-14.

DOI 10.14357/20718632210301

1. Boletsis C. The New Era of Virtual Reality Locomotion: A Systematic Literature Review of Techniques and a Proposed Typology // Multimodal Technologies and Interaction. 2017. Vol.1, No.4. P.1-17.
2. Christou C. Virtual reality in education // Affective, interactive and cognitive methods for e-learning design: creating an optimal education experience. 2010. P.228-243.
3. Selivanov V.V., Selivanova L.N. Virtualnaia realnost kak metod i sredstvo obucheniia [Virtual reality as method and means of learning] // Obrazovatelnye tekhnologii i obshchestvo [Educational Technology and Society]. 2014. Vol. 17, No.3. P.378-391.
4. VR trenazher. Virtualnaia realnost v obuchenii. Neftianaia promyshlennost [VR simulator. Virtual reality in learning. Oil industry] // XR PRO. 2019. URL: (accessed: March, 29, 2021)
5. VR-trenazher. Deistviia pri pozhare [VR Fire Safety Training] // DreamPort. 2019.
URL: (accessed: March, 29, 2021)
6. Stone R., Panfilov P., Shukshunov V. Evolution of aerospace simulation: From immersive virtual reality to serious games // In Recent Advances in Space Technologies (RAST), 2011 5th International Conference on, June 2011, P.655-662.
7. Cater J.P., Huffman S.D. Use of the remote access virtual environment network (RAVEN) for coordinated IVAEVA astronaut training and evaluation // Presence: Teleoperators & Virtual Environments, 1995, Vol.4, No.2, P.103-109.
8. Yuqing L., Shanguang C., Guohua J., Xiuqing Z., Ming A., Xuewen C., Bohe Z., Yubin X. VR simulation system for EVA astronaut training // Proceedings of AIAA Space 2010 Conference & Exposition, Anaheim California, 2010.
9. Bruguera M.B., Ilk V., Ruber S., Ewald R. Use of virtual reality for astronaut training in future space missions –spacecraft piloting for the Lunar Orbital Platform – Gateway (LOP-G) // 70th International Astronautics Congress, Washington D.C., 2019.
10. Garcia A. D., Schlueter J., Paddock E. Training astronauts using hardware-in-the-loop simulations and virtual reality // AIAA SciTech Forum, Orlando, FL, 2020.
11. Lin J., Guo X., Shao J., Jiang C., Zhu Y., Zhu S. A virtual reality platform for dynamic human-scene interaction // SIGGRAPH ASIA 2016 Virtual Reality meets Physical Reality: Modelling and Simulating Virtual Humans and Environments. 2016. No.11. P.1-4.
12. Blauert J. The advent of Communication Acoustics in retrospect // Proceedings of the 22nd International Congress on Acoustics (ICA). 2016. Vol.28, No.1, P.1-10.
13. Mikhaylyuk M.V., Torgashev M.A. Vizualnyi redaktor i modul rascheta funktsionalnykh skhem dlia imitatsionnotrenazhernykh kompleksov [The visual editor and calculation module of block diagrams for simulation and training complexes] // Programmnye produkty i sistemy [Software & Systems]. 2014. No.4. P.10-15.
14. Khuraskin I.A. Vzaimodeistvie s virtualnymi pultami upravleniia slozhnymi protsessami [Interaction with virtual control panels for complex processes] // Informatsionnye tekhnologii i vychislitelnye sistemy [Information Technologies and Computation Systems]. 2007. No.2. P.31-41.
15. Mikhaylyuk M.V., Torgashev M.A. Modelirovanie i vizualizatsiia trekhmernykh virtualnykh pultov upravleniia v trenazherakh [Modeling and visualization of 3D virtual consoles in simulators] // Nauchnaia vizualizatsiia [Scientific Visualization]. 2014. Vol.6, No.4. P.50-60.
2022 / 02
2022 / 01
2021 / 04
2021 / 03

© ФИЦ ИУ РАН 2008-2018. Создание сайта "РосИнтернет технологии".