Просматривается номер   2019-69-3
To the readers
About journal
Publication Ethics
Requirements for papers
Topics
Review Process
English (United Kingdom)Russian (CIS)
Methods and models in economy
V.N. Livchits On difference between the assessed characteristics of significant events and statesmen in our country by the elite mass-media and the ordinary Russians. Facts and version of their explanation
N.I.Belousova, E.M.Vasilieva Features of Infrastructure Technology Modeling under Changing Natural Monopoly Legislation
Zhukovskaya L.V. Formal and systemic mechanisms for implementing the idea of balancing economic, social and legal macro-systems
Recognition of images
O.A. Slavin, E.S. Grin Overview of virtual and augmented reality technology
General systems theory
G.A. Smirnov The place of data in the structure of knowledge
Scientometrics and management science
S.I. Matorin, A.B. Petrovsky, S.I. Pronichkin, M. Yu. Sternin, G.I. Shepelev Approaches to defining scientific priorities in healthcare and medicine: foreign experience
Optimization, identification, the theory of games
T.S. Karaseva Self-configuring genetic programming algorithm for a Cauchy problem and variational problem in symbolic form
Cognitive technology
S.N. Enikolopov, Y.M. Kuznetsova, A.N. Minin, M.Y. Penkina, I.V. Smirnov, M.A. Stankevich, N.V. Chudova Text features and psychological characteristics: an empirical study of computer
O.A. Slavin, E.S. Grin Overview of virtual and augmented reality technology

Abstract.

This paper discusses the characteristics of modern technologies of virtual and augmented reality, describes the features of the implementation of applications based on the technologies of virtual and augmented reality and examples of applications in applications developed in the Russian Federation. The article also lists problems that make it difficult to use technologies of virtual and augmented reality. The need to protect intellectual property obtained using AVR technologies was noted. Much of the review is based on domestic publications.

Keywords:

virtual reality, augmented reality, virtual reality helmet, immersiveness, virtual object, heptic technologies, content.

PP. 42-54.

DOI: 10.14357/20790279190304

References

1. Milgram P., Kishino F. 1994. A taxonomy of mixed reality visual displays. IEICE Transactions on Information and Systems. Vol E77-D, №12. P. 1321–1329.
2. Ivanova A.V. 2018. Tekhnologii virtual’noj i dopolnennoj real’nosti: vozmozhnosti i prepyatstviya primeneniya [Virtual and Augmented Reality Technologies: Possibilities and Obstacles of Application]. Ctrategicheskie resheniya i risk-menedzhment [Strategic decisions and risk management]. 3 (106): 88-107.
3. Jr Edwin – Combination training device for student aviators and entertainment apparatus – Filed: 12.03.1930, Granted: 29.09.1931. Patent US1825462A G09B9/12
4. Morton L. Heilig, Long Beach N.Y. – SENSORAMA SMULATOR – Filed: 10.01.1961, Granted: 08.28.1962. Patent US3050870A G02B27/2228
5. Sutherland Ivan E. 1968. A head-mounted three dimensional display. In Proceedings of the December 9-11, 1968, fall joint computer conference, part I (AFIPS ‘68 (Fall, part I)). ACM, New York, NY, USA, P. 757-764. DOI: https://doi.org/10.1145/1476589.1476686
6. Michael A. Teitel – Virtual image display device – Filed: 03.07.1991, Granted: 07.12.1999. Patent US5999147A G02B27/0172
7. Future Reality: Virtual, Augmented & Mixed Reality (VR, AR & MR) Primer (2016) // Bank of America Merryll Lynch. https://www.bofaml.com / content / dam / boamlimages / documents / articles / ID16_1099 / virtual_reality_primer_short.pdf (Доступ 20.06.2019).
8. Patent China CN205301713U / 廖俊杰 林子焜 钱桂校 – Wear-type virtual reality glasses with wireless video transmission of 3D – Filed: 08.01.2016, Granted: 08.06.2016.
9. Company website https://wayray.com/ (accessed June 20, 2019).
10. Коллиматорный широкоформатный индикатор на фоне лобового стекла ИКШ-1М https://vpk.name/images/i136493.html (accessed June 20, 2019).
11. 5DT data glove http://www.5dt.com/products/pdataglovemri.html, 2005. (Доступ 20.06.2019).
12. Pamplona V.F., Fernandes L.A.F., Prauchner J.L., Nedel L.P. and Oliveira M.M. 2008. The Image-Based Data Glove. SVR Proceedings of the 10th Symposium on Virtual and Augmented Reality. João Pessoa, 2008. Anais do SVR 2008, Porto Alegre: SBC, 2008, (ISBN 857669174-4). pp. 204–211.
13. Company website HaptX https://haptx.com/ (accessed June 20, 2019).
14. Company website https://www.woojer.com (accessed June 20, 2019).
15. Company website https://www.ultrahaptics.com/ (accessed June 20, 2019).
16. Company website http://nosulusrift.ubisoft.com/?lang=ru-RU (accessed June 20, 2019).
17. Company website https://feelreal.com/( accessed June 20, 2019).
18. Ranasinghe N., Suthokumar G., Yi Lee K., Do Yi Lee E. 2014. Digital flavor interface. UIST 2014 – Adjunct Publication of the 27th Annual ACM Symposium on User Interface Software and Technology. pp. 47-48.
19. Niijima A., Ogawa T. 2016. Virtual food texture by electrical muscle stimulation. Proceeding ISWC ‘16 Proceedings of the 2016 ACM International Symposium on Wearable Computers, Heidelberg, Germany — September 12, 48-49 .
20. Sasagawa J. Niijima M., A., Tomoki R. A., Yamada W.T. 2018. A Proposal of Food Texture Display. Proceeding CHI EA ‘18 Extended Abstracts of the 2018 CHI Conference on Human Factors in Computing Systems, 1-6.
21. Company website http://www.neurable.com/technology (accessed June 20, 2019).
22. Kato H. 1999. Marker Tracking and HMD Calibrationfor a Video-based Augmented Reality Conferencing System. Proceedings of the 2nd IEEE and ACM International Workshop on Augmented Reality. 85-94.
23. Alekseeva D.D., Makolkina M.A. 2015. Obzor tekhnologii dopolnennoj real’nosti [Overview of Augmented Reality Technology]. Informacionnye tekhnologii i telekommunikacii [Information Technologies and Telecommunication]. 3(2): 101-110.
24. Lakienko E.P., Voroschenko E.A., Rodionova L.E. 2017. Obzor tekhnologij virtual’noj i dopolnennoj real’nosti [Review of Virtual and Augmented Reality Technologies]. 7-j mezhdunarodnoj nauchno-prakticheskoj konferencii “Sovremennye materialy, tekhnika i tekhnologiya” [7th International Scientific and Practical Conference “Modern Materials, Engineering and Technology”.205-209.
25. Bulatov K., Arlazarov V.V., Chernov T., Slavin O., Nikolaev D. Smart IDReader: Document Recognition in Video Stream. Proc. 14th International Conference on Document Analysis and Recogntiion (ICDAR), 2017, vol. 6, 39–44.
26. Program website Unity https://unity3d.com (accessed June 20, 2019).
27. Program website Unreal Engine https://www.unrealengine.com/en-US/what-is-unreal-engine-4 (accessed June 20, 2019).
28. Program website SteamVR https://developer.valvesoftware.com/wiki/SteamVR (accessed June 20, 2019).
29. Program website Google VR https://vr.google.com/ (accessed June 20, 2019).
30. Program website Oculus https://developer.oculus.com/ (accessed June 20, 2019).
31. Program website Windows Mixed Reality https://developer.microsoft.com/en-us/windows/mixedreality (accessed June 20, 2019).
32. Program website ARCore https://developers.google.com/ar/ (accessed June 20, 2019).
33. Program website ARKit https://developer.apple.com/arkit/ (accessed June 20, 2019).
34. Program website Tango https://developers.google.com/tango/ (accessed June 20, 2019).
35. Program website Vuforia https://developer.vuforia.com/ (accessed June 20, 2019).
36. Program website https://www.kudan.io (accessed June 20, 2019).
37. Echeagaray-Patrón B.A., Kober V.I., Karnaukhov V.N., Kuznetsov V.V. A method of face recognition using 3d facial surfaces. Journal of Communications Technology and Electronics 62(6) (2017), 648–652.
38. Ruchey A., Dorofeev K., Kober A.: 3d object reconstruction using multiple kinect sensors and initial estimation of sensor parameters. In: Proc. SPIE. Vol. 10752. (2018) 1075222–8
39. Program website Facebook Spaces Beta https://www.oculus.com/experiences/rift/1036793313023466/ (accessed June 20, 2019).
40. Program website https://vtime.net/ (accessed June 20, 2019).
41. Program website https://store.steampowered.com/app/407060/AltspaceVRThe_Social_VR_App/ (accessed June 20, 2019).
42. Akçayır M., Gökçe A. Advantages and challenges associated with augmented reality for education: A systematic review of the literature. Educational Research Review 20 (2017): 1-11.
43. Butov R. A., Grigor’ev I. S. Virtual’naya real’nost’ dlya obrazovaniya: obzor tekhnologij i poleznye ssylki [A Review of Technologies and Useful Links] http://integral-russia.ru/2018/09/28/virtualnaya-realnost-dlya-obrazovaniya-obzor-ipoleznye-ssylki/ (accessed June 20, 2019).
44. Luzanov O.R., Savka O.I., Ragozina M.A. 2018. Primenenie tekhnologii virtual’noj i dopolnennoj real’nostej pri obuchenii svarochnomu delu [The use of virtual and augmented reality technology in teaching welding business]. materialy mezhdunarodnoj nauchno-prakticheskoj konferencii “Nauka segodnya: teoreticheskie i prakticheskie aspekty”: v 2 chastyah [materials of the international scientific-practical conference “Science today: theoretical and practical aspects”: in 2 parts].. 59-61.
45. Virtual welder simulator “Roll” https://zarnitza.ru/catalog/uchlab/tehnologii-i-proizvodstvo/professionalnaya-podgotovka/virtualnyit renazher-svarshchika-raskat/?sphrase_id=183066 (accessed June 20, 2019).
46. The first turn-key welding training solution powered with augmented reality http://www.soldamatic.com/what/ (accessed June 20, 2019).
47. Dmitriev A.A., Holdeeva E.Y. 2016. Nekotorye sovremennye tekhnologii virtual’noj i dopolnennoj real’nosti pri izuchenii yazykov [Some modern technologies of virtual and augmented reality in the study of languages]. Molodezhnyj vestnik IRGTU, Irkutsk: Izdatel’stvo Irkutskogo nacional’nogo issledovatel’skogo tekhnicheskogo universiteta [Molodezhny Vestnik of IRSTU].4: 9-10.
48. Liu Zenghe (Google Inc.) – Microelectrodes In An Ophthalmic Electrochemical Sensor – Filed: 12.10.2012, Granted: 24.02.2015. Patent USUS8965478B2 A61B5/1468.
49. Sako Y., Iwasaki M., Hayashi K., Kon T., Nakamura T. , Onuma T., Tange A. – Contact lens and storage medium – Filed: 02.05.2013, Granted: 06.11.2014. Patent US (PCT) WO2014178221A1G02C7/101.
50. Cherchenko O.V. 2018. Nekhnologii dopolnennoj i virtual’noj real’nosti v medicine: analiz konkurentnogo landshafta [Technologies of augmented and virtual reality in medicine: analysis of the competitive landscape]. “Ekonomika nauki” [“Economics of Science”]. 4(1): 69-80.
51. Hudoev I.V., Pirmagomedov R.YA., Makolkina M.A. 2018. Medicinskie prilozheniya dopolnennoj real’nosti [Augmented reality medical applications]. materialy XXI Mezhdunarodnoj nauchnoj konferencii “Raspredelennye komp’yuternye i telekommunikacionnye seti: upravlenie, vychislenie, svyaz’” (DCCN- 2018) [materials of the XXI International Scientific Conference “Distributed computer and telecommunication networks: control, computing, communication”]. 149-161.
52. Dubrovin V.N., Egoshin A.V., Furman YA.A., Rozhencov A.A., Eruslanov R.I. 2015. Virtual’noe planirovanie i vozmozhnosti intraoperacionnoj navigacii pri laparoskopicheskoj rezekcii pochki [Virtural planning and possibilities of intraoperative navigation during laparoscopic kidney resection]. Tyumenskij medicinskij zhurnal [Tyumen Medical Journal].17(1): 25-26
53. Nakamoto M., Ukimura O., Faber K., Gill I.S. Current progress on augmented reality visualization in endoscopic surgery. Curr. Opin. Urol. 2012. Vol. 22. 121-126.
54. Максим Юрьевич Наумов. Применение хептических технологий как составляющей виртуальной или дополненной реальности / Постулат, № 10 (2016) ISSN 2414-4487 (Доступ 20.06.2019).
55. Company website https://fibrum.com/vrshop (accessed June 20, 2019).
56. Kir’yakidi S.V. Dopolnennaya real’nost’ i perspektivy ee primeneniya v stroitel’noj otrasli [Augmented reality and prospects for its application in the construction industry]. http:// isicad.ru/ru/articles.php?article_num=16724 (accessed June 20, 2019).
57. Belov N.V., Dementieva A.V., Otkupchikova I.A., Rieskov K.N., Tretyakova Z.O. 2019. Primenenie AR i VR-tekhnologij v stroitel’stve [Application of AR and VR technologies in construction]. “Sovremennye obrazovatel’nye tekhnologii v podgotovke specialistov dlya mineral’nosyr’evogo kompleksa” [“Modern educational technologies in the training of specialists for the mineral resource complex”]. 1054-1059.
58. Digital Decade. Keeping up with the times (2017) // PWC. https://www.pwc.ru / ru / publications / globaldigital-iq-survey-rus.pdf . (accessed June 20, 2019).
59. The global survey of the entertainment industry and the media: a forecast for 2018 – 2022 // PWC. https://www.pwc.ru/ru/publications/assets/pwcmedia-outlook-2018-rus-web.pdf (accessed June 20, 2019).
60. Grin E.S. Korolevа A.G. Formirovanie bazovyh modelej ohrany tekhnologij virtual’noj i dopolnennoj real’nostej v sfere prava intellektual’noj sobstvennosti [Formation of basic models of protection of technologies of virtual and augmented realities in the field of intellectual property rights] // Aktual’nye problemy rossijskogo prava [Actual problems of Russian law]. № 6. 2019. (article accepted for publication)
 

 
     
2024-74-1
2023-73-4
2023-73-3
2023-73-2

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