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Назва: New effective aid for teaching technology subjects: 3D spherical panoramas joined with virtual reality
Автори: Barkatov, Igor V.
Farafonov, Volodymyr S.
Tiurin, Valeriy O.
Honcharuk, Serhiy S.
Barkatov, Vitaliy I.
Kravtsov, Hennadiy M.
Ключові слова: 360° panorama
VR glasses
simulator
vehicle cabin
academia-industry collaboration
Дата публікації: 8-лис-2020
Видавництво: CEUR Workshop Proceedings
Бібліографічний опис: Barkatov I. V. New effective aid for teaching technology subjects: 3D spherical panoramas joined with virtual reality / Igor V. Barkatov, Volodymyr S. Farafonov, Valeriy O. Tiurin, Serhiy S. Honcharuk, Vitaliy I. Barkatov, Hennadiy M. Kravtsov // CEUR Workshop Proceedings. - 2020. - Vol. 2731. - P. 163-175.
Короткий огляд (реферат): Rapid development of modern technology and its increasing complexity make high demands to the quality of training of its users. Among others, an important class is vehicles, both civil and military. In the teaching of associated subjects, the accepted hierarchy of teaching aids includes common visual aids (posters, videos, scale models etc.) on the first stage, followed by simulators ranging in complexity, and finished at real vehicles. It allows achieving some balance between cost and efficiency by partial replacement of more expensive and elaborated aids with the less expensive ones. However, the analysis of teaching experience in the Military Institute of Armored Forces of National Technical University “Kharkiv Polytechnic Institute” (Institute) reveals that the balance is still suboptimal, and the present teaching aids are still not enough to allow efficient teaching. This fact raises the problem of extending the range of available teaching aids for vehicle-related subjects, which is the aim of the work. Benefiting from the modern information and visualization technologies, we present a new teaching aid that constitutes a spherical (360° or 3D) photographic panorama and a Virtual Reality (VR) device. The nature of the aid, its potential applications, limitations and benefits in comparison to the common aids are discussed. The proposed aid is shown to be cost-effective and is proved to increase efficiency of training, according to the results of a teaching experiment that was carried out in the Institute. For the implementation, a tight collaboration between the Institute and an IT company “Innovative Distance Learning Systems Limited” was established. A series of panoramas, which are already available, and its planned expansions are presented. The authors conclude that the proposed aid may significantly improve the cost-efficiency balance of teaching a range of technology subjects.
Опис: 1. Bayarri, S., Fernandez, M., Perez, M.: Virtual Reality for Driving Simulation. Communications of the ACM 39(5), 72–76 (1996). doi:10.1145/229459.229468 2. Bhagat, K.K., Liou, W.-K., Chang, C.-Y.: A cost-effective interactive 3D virtual reality system applied to military live firing training. Virtual Reality 20, 127–140 (2016). doi:10.1007/s10055-016-0284-x 3. Course of driving combat vehicles of Armored forces of Ukraine. Varta, Kyiv (2019) 4. Distance course “Structure and exploitation basics of BTR-4E”. http://dl.khpi.edu.ua/course/view.php?id=576. Accessed 15 Feb 2020 5. Gallagher, A.G., Cates, G.U.: Virtual reality training for the operating room and cardiac catheterisation laboratory. The Lancet 364(9444), 1538–1540 (2004). doi:10.1016/S0140- 6736(04)17278-4 6. Grinev, R.: Chto takoe sfericheskaia panorama? Sfericheskaia panorama (virtualnaia panorama, 3D panorama) – odin iz vidov panoramnoi fotografii (What is a spherical panorama? Spherical panorama (virtual panorama, 3D panorama) is one of the types of panoramic photography). https://truevirtualtours.com/ru/article/what-is-a-360-degreepanorama (2020). Accessed 21 Mar 2020 7. He, J., Han, P., Liu, H., Men, S., Ju, L., Zhen, P., Wang, T.: The research and application of the augmented reality technology. In: Abstracts of the IEEE 2nd Information Technology, Networking, Electronic and Automation Control Conference, Chengdu, China, 15–17 December 2017. IEEE (2018). doi:10.1109/ITNEC.2017.8284781 8. Iatsyshyn, Anna V., Kovach, V.O., Lyubchak, V.O., Zuban, Yu.O., Piven, A.G., Sokolyuk, O.M., Iatsyshyn, Andrii V., Popov, O.O., Artemchuk, V.O., Shyshkina, M.P.: Application of augmented reality technologies for education projects preparation. In: Kiv, A.E., Shyshkina, M.P. (eds.) Proceedings of the 7th Workshop on Cloud Technologies in Education (CTE 2019), Kryvyi Rih, Ukraine, December 20, 2019. CEUR Workshop Proceedings 2643, 134–160. http://ceur-ws.org/Vol-2643/paper07.pdf (2020). Accessed 20 Jul 2020 9. Kang, H.S., Jalil, M.K.A., Mailah, M.: A PC-based driving simulator using virtual reality technology. In: Proceedings of the 2004 ACM SIGGRAPH International Conference on Virtual Reality Continuum and Its Applications in Industry, Singapore, 16–18 June 2004, pp. 273–277. ACM (2004). doi:10.1145/1044588.1044646 10. Kozlovsky, E.O., Kravtsov, H.M.: Multimedia virtual laboratory for physics in the distance learning. In: Semerikov, S.O., Shyshkina, M.P. (eds.) Proceedings of the 5th Workshop on Cloud Technologies in Education (CTE 2017), Kryvyi Rih, Ukraine, April 28, 2017. CEUR Workshop Proceedings 2168, 42–53. http://ceur-ws.org/Vol-2168/paper7.pdf (2018). Accessed 21 Mar 2019 11. Kravtsov, H., Pulinets, A.: Interactive Augmented Reality Technologies for Model Visualization in the School Textbook. CEUR-WS.org, online (2020, in press) 12. Lavrentieva, O.O., Arkhypov, I.O., Kuchma, O.I., Uchitel, A.D.: Use of simulators together with virtual and augmented reality in the system of welders’ vocational training: past, present, and future. In: Kiv, A.E., Shyshkina, M.P. (eds.) Proceedings of the 2nd International Workshop on Augmented Reality in Education (AREdu 2019), Kryvyi Rih, Ukraine, March 22, 2019. CEUR Workshop Proceedings 2547, 201–216. http://ceurws.org/Vol-2547/paper15.pdf (2020). Accessed 10 Feb 2020 13. Lele, A.: Virtual reality and its military utility. Journal of Ambient Intelligence and Humanized Computing 4, 17–26 (2013). doi:10.1007/s12652-011-0052-4 14. Lvov, M.S., Popova, H.V.: Simulation technologies of virtual reality usage in the training of future ship navigators. In: Kiv, A.E., Shyshkina, M.P. (eds.) Proceedings of the 2nd International Workshop on Augmented Reality in Education (AREdu 2019), Kryvyi Rih, Ukraine, March 22, 2019. CEUR Workshop Proceedings 2547, 50–65. http://ceur-ws.org/Vol-2547/paper04.pdf (2020). Accessed 10 Feb 2020 15. Nechypurenko, P.P., Stoliarenko, V.G., Starova, T.V., Selivanova, T.V., Markova, O.M., Modlo, Ye.O., Shmeltser, E.O.: Development and implementation of educational resources in chemistry with elements of augmented reality. In: Kiv, A.E., Shyshkina, M.P. (eds.) Proceedings of the 2nd International Workshop on Augmented Reality in Education (AREdu 2019), Kryvyi Rih, Ukraine, March 22, 2019. CEUR Workshop Proceedings 2547, 156–167. http://ceur-ws.org/Vol-2547/paper12.pdf (2020). Accessed 10 Feb 2020 16. Ooi, S., Tanimoto, T., Sano, M.: Virtual reality fire disaster training system for improving disaster awareness. In: Proceedings of the 2019 8th International Conference on Educational and Information Technology, Cambridge, United Kingdom, 2–4 March 2019, pp. 301–307. ACM (2019). doi:10.1145/3318396.3318431 17. Osadchyi, V.V., Chemerys, H.Y., Osadcha, K.P., Kruhlyk, V.S., Koniukhov, S.L., Kiv, A.E.: Conceptual model of learning based on the combined capabilities of augmented and virtual reality technologies with adaptive learning systems. In: Burov, O.Yu., Kiv, A.E. (eds.) Proceedings of the 3rd International Workshop on Augmented Reality in Education (AREdu 2020), Kryvyi Rih, Ukraine, May 13, 2020, CEUR-WS.org, online (2020, in press) 18. Pantelidis, V.S.: Reasons to Use Virtual Reality in Education and Training Courses and a Model to Determine When to Use Virtual Reality. Themes in Science and Technology Education 2(1-2), 59–70 (2009) 19. Prihodko, A.: Ukrainian simulation industry: problems and solutions. Defense Express 1–2, 52–56 (2009) 20. Ren, A., Chen, C., Shi, J., Zou, L.: Application of virtual reality technology to evacuation simulation in fire disaster. In: Proceedings of the 2006 International Conference on Computer Graphics & Virtual Reality, Las Vegas, Nevada, USA, 26–29 June 2006 21. Rowe, R., Cohen, R.A.: An evaluation of a virtual reality airway simulator. Anesthesia & Analgesia 95(1), 62–66 (2002). doi:10.1097/00000539-200207000-00011 22. Rudkovs’kyy, A.: Integration of system of trainers in process of combat training of subdivisions of the army (in Ukrainian). Military Technical Collection 2, 99–104 (2013) 23. Rusilo, P.А.: Problem questions in relation to the state and prospects of development of educational-trainer facilities for mechanized and tank units. Systems of Arms and Military Equipment 2, 61–64 (2010) 24. Sampaio, A.Z., Ferreira, M.M., Rosário, D.P., Martins, O.P.: 3D and VR models in civil engineering education: Construction, rehabilitation and maintenance. Automation in Construction 19(7), 819–828 (2010). doi:10.1016/j.autcon.2010.05.006 25. Satava, R.M.: Virtual reality surgical simulator. The first steps. Surgical Endoscopy 7, 203– 205 (1993). doi:10.1007/BF00594110 26. Shyshkina, M.P., Marienko, M.V.: Augmented reality as a tool for open science platform by research collaboration in virtual teams. In: Kiv, A.E., Shyshkina, M.P. (eds.) Proceedings of the 2nd International Workshop on Augmented Reality in Education (AREdu 2019), Kryvyi Rih, Ukraine, March 22, 2019. CEUR Workshop Proceedings 2547, 107–116. http://ceur-ws.org/Vol-2547/paper08.pdf (2020). Accessed 10 Feb 2020 27. Singh, N., Singh, S.: Virtual reality: A brief survey. In: Abstracts of the International Conference on Information Communication and Embedded Systems, Chennai, India, 23– 24 February 2017. IEEE (2017). doi:10.1109/ICICES.2017.8070720 28. Symonenko, S.V., Zaitseva, N.V., Osadchyi, V.V., Osadcha, K.P., Shmeltser, E.O.: Virtual reality in foreign language training at higher educational institutions. In: Kiv, A.E., Shyshkina, M.P. (eds.) Proceedings of the 2nd International Workshop on Augmented Reality in Education (AREdu 2019), Kryvyi Rih, Ukraine, March 22, 2019. CEUR Workshop Proceedings 2547, 37–49. http://ceur-ws.org/Vol-2547/paper03.pdf (2020). Accessed 10 Feb 2020 29. Syrovatskyi, O.V., Semerikov, S.O., Modlo, Ye.O., Yechkalo, Yu.V., Zelinska, S.O.: Augmented reality software design for educational purposes. In: Kiv, A.E., Semerikov, S.O., Soloviev, V.N., Striuk, A.M. (eds.) Proceedings of the 1st Student Workshop on Computer Science & Software Engineering (CS&SE@SW 2018), Kryvyi Rih, Ukraine, November 30, 2018. CEUR Workshop Proceedings 2292, 193–225. http://ceur-ws.org/Vol2292/paper20.pdf (2018). Accessed 21 Mar 2019 30. Ukrainian open-air museums. https://museums.authenticukraine.com.ua/en/ (2020). Accessed 13 Feb 2020 31. Wang, P., Wu, P., Wang, J., Chi, H.-L., Wang, X.: A Critical Review of the Use of Virtual Reality in Construction Engineering Education and Training. International Journal of Environmental Research and Public Health 15(6), 1204 (2018). doi:10.3390/ijerph15061204 32. Wikipedia: Panoramic photography. https://en.wikipedia.org/w/index.php?title=Panoramic_photography&oldid=959907621 (2020) Accessed 12 Feb 2020 33. Zhao, D., Lucas, J.: Virtual reality simulation for construction safety promotion. International Journal of Injury Control and Safety Promotion 22(1), 57–67 (2015). doi:10.1080/17457300.2013.861853
URI (Уніфікований ідентифікатор ресурсу): http://ceur-ws.org/Vol-2731/paper08.pdf
http://elibrary.kdpu.edu.ua/xmlui/handle/123456789/4407
https://doi.org/10.31812/123456789/4407
ISSN: 1613-0073
Розташовується у зібраннях:Збірники наукових праць та матеріали конференцій

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