DSpace Home
→
Електронні публікації
→
Фізико-математичний факультет
→
Кафедра інформатики та прикладної математики
→
View Item

Application of augmented reality technologies for education projects preparation

Iatsyshyn, Anna V.; Kovach, Valeriia O.; Lyubchak, Volodymyr O.; Zuban, Yurii O.; Piven, Andriy G.; Sokolyuk, Oleksandra M.; Iatsyshyn, Andrii V.; Popov, Oleksandr O.; Artemchuk, Volodymyr O.; Shyshkina, Mariya P.

URI: http://ceur-ws.org/Vol-2643/paper07.pdf
http://elibrary.kdpu.edu.ua/xmlui/handle/123456789/3856
https://doi.org/10.31812/123456789/3856

Date: 2020-07-20

Abstract:

After analysis of scientific literature, we defined that concept of “augmented reality” has following synonyms: “advanced reality”, “improved reality”, “enriched reality”, “mixed reality” and “hybrid reality”. Analysis of scientific literature and own practical experience of the use of augmented reality technologies application in educational practices allowed to state next: augmented reality technologies have a great potential for application in education; there are some cases of augmented reality use for school education; positive aspects of augmented reality technologies application in higher education institutions are confirmed by experiments (isolated cases); only few universities in Ukraine apply augmented reality technologies to educate students; only few universities in Ukraine have special subjects or modules in schedule to teach students to develop augmented reality technologies; various scientific events, mass events, competitions are held in Ukraine, and specialized training on the augmentation of augmented reality technologies is carried out, but this is non-systematic and does not have special state orientation and support. Features of introduction of virtual and augmented reality technologies at Sumy State University (Ukraine) are identified: “e-learning ecosystems” was created; in 2019, augmented and virtual reality research laboratory was established. Advantages and disadvantages of project activity in education are described: project activity is one of the most important components of educational process; it promotes creative self-development and self-realization of project implementers and forms various life competencies. It is determined that augmented reality application for implementation of educational projects will help: to increase students’ interest for educational material; formation of new competences; increase of students’ motivation for independent educational and cognitive activity; activation of educational activities; formation of positive motivation for personal and professional growth; conditions creation for development of personal qualities (creativity, teamwork, etc.). Current trends in implementation of educational projects were identified: most of the winner projects were implemented using augmented reality technology; augmented reality technologies were used in projects to teach different disciplines in higher education institutions. Augmented reality technology application for project activity has positive impact on learning outcomes and competitiveness of the national workforce; it will enhance the country’s position in the global economic space.

Description:

1. 3dinnovationlab | FabLabs. https://www.fablabs.io/labs/3dinnovationlab (2020). Accessed 21 Mar 2020 2. Alahmari, M., Issa, T., Issa, T., Nau, S.Z.: Faculty awareness of the economic and environmental benefits of augmented reality for sustainability in Saudi Arabian universities. Journal of Cleaner Production 226, 259–269 (2019). doi:10.1016/j.jclepro.2019.04.090 3. Arici, F., Yildirim, P., Caliklar, Ş., Yilmaz, R.M.: Research trends in the use of augmented reality in science education: Content and bibliometric mapping analysis. Computers & Education 142, 103647 (2019). doi:10.1016/j.compedu.2019.103647 4. Azuma, R.T.: A Survey of Augmented Reality. Presence: Teleoperators and Virtual Environments 6(4), 355–385 (1997) 5. Blinov, I.V., Parus, Ye.V., Ivanov, H.A. Imitation modeling of the balancing electricity market functioning taking into account system constraints on the parameters of the IPS of Ukraine mode. Tekhnichna elektrodynamika 6, 72–79 (2017). doi:10.15407/techned2017.06.072 6. Bondarenko, O.V., Pakhomova, O.V., Lewoniewski, W.: The didactic potential of virtual information educational environment as a tool of geography students training. 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, 13–23. http://ceur-ws.org/Vol-2547/paper01.pdf (2020). Accessed 10 Feb 2020 7. Bower, M., Howe, C., McCredie, N., Robinson, A., Grover, D.: Augmented Reality in education – cases, places and potentials. Educational Media International 51(1), 1–15 (2014). doi:10.1080/09523987.2014.889400 8. Chorna, O.V., Hamaniuk, V.A., Uchitel, A.D.: Use of YouTube on lessons of practical course of German language as the first and second language at the pedagogical university. In: Kiv, A.E., Soloviev, V.N. (eds.) Proceedings of the 6th Workshop on Cloud Technologies in Education (CTE 2018), Kryvyi Rih, Ukraine, December 21, 2018. CEUR Workshop Proceedings 2433, 294–307. http://ceur-ws.org/Vol-2433/paper19.pdf (2019). Accessed 10 Sep 2019 9. Chornobylska arka onlain: u merezhu zapustyly dodatok dlia stalkeriv (Chornobyl Arch online: Stalker application launched online). https://znaj.ua/society/175005-chornobilskaarka-onlayn-u-merezhu-zapustili-dodatok-dlya-stalkeriv (2018). Accessed 25 Oct 2019 10. Chubukova, O.Yu., Ponomarenko, I.V.: Innovatsiini tekhnolohii dopovnenoi realnosti dlia vykladannia dystsyplin u vyshchykh navchalnykh zakladakh Ukrainy (Augmented reality technology use for study of disciplines in ukraine’s higher education institutions). Problemy innovatsiino-investytsiinoho rozvytku 16, 20–27 (2018) 11. Dmitriev, A.V.: Cifrovizacija transportno-logisticheskih uslug na osnove primenenija tehnologii dopolnennoj real’nosti (Digitalization of transport and logistics services based on the application of augmented reality technology). Bulletin of South Ural State University, Series “Economics and Management” 12(2), 169–178 (2018). doi:10.14529/em180220 12. Ekosystema onlayn-navchannya Sumsʹkoho derzhavnoho universytetu (Sumy State University Online Learning Ecosystem). Rozrobka na konkurs XI Mizhnarodnoyi vystavky “Innovatyka v suchasniy osviti – 2019”. Sumy State University, Sumy (2019) 13. Garzón, J., Acevedo, J.: Meta-analysis of the impact of Augmented Reality on students’ learning gains. Educational Research Review 27, 244–260 (2019). doi:10.1016/j.edurev.2019.04.001 14. Honcharova, N.: Tekhnolohiia dopovnenoi realnosti v pidruchnykakh novoho pokolinnia (Technology of augmented reality in textbooks of new generation). Problemy suchasnoho pidruchnyka 22, 46–56 (2019). doi:10.32405/2411-1309-2019-22-46-56 15. Horbatiuk, R., Voitovych, O., Voitovych, I.: Formation of project competence of future environmentalists. In: Semerikov, S., Chukharev, S., Sakhno, S., Striuk, A., Osadchyi, V., Solovieva, V., Vakaliuk, T., Nechypurenko, P., Bondarenko, O., Danylchuk, H. (eds.) The International Conference on Sustainable Futures: Environmental, Technological, Social and Economic Matters (ICSF 2020). Kryvyi Rih, Ukraine, May 20-22, 2020. E3S Web of Conferences 166, 10026 (2020). doi:10.1051/e3sconf/202016610026 16. Hruntova, T.V., Yechkalo, Yu.V., Striuk, A.M., Pikilnyak, A.V.: Augmented Reality Tools in Physics Training at Higher Technical Educational Institutions. In: Kiv, A.E., Soloviev, V.N. (eds.) Proceedings of the 1st International Workshop on Augmented Reality in Education (AREdu 2018), Kryvyi Rih, Ukraine, October 2, 2018. CEUR Workshop Proceedings 2257, 33–40. http://ceur-ws.org/Vol-2257/paper04.pdf (2018). Accessed 30 Nov 2018 17. Iatsyshyn, A.V., Kovach, V.O., Romanenko, Ye.O., Iatsyshyn, A.V.: Cloud services application ways for preparation of future PhD. In: Kiv, A.E., Soloviev, V.N. (eds.) Proceedings of the 6 th Workshop on Cloud Technologies in Education (CTE 2018), Kryvyi Rih, Ukraine, December 21, 2018. CEUR Workshop Proceedings 2433, 197–216. http://ceur-ws.org/Vol-2433/paper12.pdf (2019). Accessed 10 Sep 2019 18. Iatsyshyn, A.V., Popov, O.O., Artemchuk, V.O., Kovach, V.O., Zinovieva, I.S.: Automated and information decision support systems for environmental safety. Information Technologies and Learning Tools 72(4), 286–305 (2019). doi:10.33407/itlt.v72i4.2993 19. Iatsyshyn, A.V., Popov, O.O., Kovach, V.O., Artemchuk, V.O.: The methodology of future specialists teaching in ecology using methods and means of environmental monitoring of the atmosphere’s surface layer. Information Technologies and Learning Tools 66(4), 217– 230 (2018). doi:10.33407/itlt.v66i4.2233 20. Iatsyshyn, Anna V., Kovach, V.O., Romanenko, Ye.O., Deinega, I.I., Iatsyshyn, Andrii V., Popov, O.O., Kutsan, Yu.G., Artemchuk, V.O., Burov, O.Yu., Lytvynova, S.H.: Application of augmented reality technologies for preparation of specialists of new technological era. 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, 181–200. http://ceur-ws.org/Vol2547/paper14.pdf (2020). Accessed 10 Feb 2020 21. Ibáñez, M.-B., Delgado-Kloos, C.: Augmented reality for STEM learning: A systematic review. Computers & Education 123, 109–123 (2018). doi:10.1016/j.compedu.2018.05.002 22. Ivanov, V., Pavlenko, I., Trojanowska, J., Zuban, Y., Samokhvalov, D., Bun, P.: Using the augmented reality for training engineering students. In: Bruzzone, A.G., Ginters, E., Mendivil, E.G. et al. (eds.) Proceedings of the International Conference of the Virtual and Augmented Reality in Education, 2018, VARE 2018, Budapest, Hungary, 17-19.09.2018, pp. 57–64 (2018) 23. Kahtanova, Ju.F., Bestybaeva, K.I.: Tehnologija dopolnennoj real’nosti v obrazovanii (Technology of augmented reality in education). Pedagogicheskoe masterstvo i pedagogicheskie tehnologii 2(8), 289–291 (2016) 24. Klimova, A., Bilyatdinova, A., Karsakov, A.: Existing Teaching Practices in Augmented Reality. Procedia Computer Science 136, 5–15 (2018). doi:10.1016/j.procs.2018.08.232 25. Klopfer, E., Squire K.: Environmental Detectives - the development of an augmented reality platform for environmental simulations. Educational Technology Research and Development 56(2), 203–228 (2008). doi:10.1007/s11423-007-9037-6 26. Knoll, M.: “A Marriage on the Rocks”: An Unknown Letter by William H. Kilpatrick about his Project Method. https://eric.ed.gov/?id=ED511129 (2010). Accessed 25 Oct 2019 27. Kolomoiets, T.H., Kassim, D.A.: Using the Augmented Reality to Teach of Global Reading of Preschoolers with Autism Spectrum Disorders. In: Kiv, A.E., Soloviev, V.N. (eds.) Proceedings of the 1st International Workshop on Augmented Reality in Education (AREdu 2018), Kryvyi Rih, Ukraine, October 2, 2018. CEUR Workshop Proceedings 2257, 237– 246. http://ceur-ws.org/Vol-2257/paper24.pdf (2018). Accessed 30 Nov 2018 28. Kovach, V., Deinega, I., Iatsyshyn, Anna, Iatsyshyn, Andrii, Kovalenko, V., Buriachok, V.: Electronic Social Networks as Supporting Means of Educational Process in Higher Education Institutions. CEUR Workshop Proceedings 2588, 418–433 (2019) 29. Kozak L.V.: Zastosuvannia proektnykh tekhnolohii u pidhotovtsi maibutnikh vykladachiv doshkilnoi pedahohiky i psykholohii (Application of project technologies in preparation of future teachers of preschool pedagogy and psychology). Pedahohichnyy protses : teoriya i praktyka 1, 54–64 (2013) 30. Kravtsov, H., Pulinets, A.: Interactive Augmented Reality Technologies for Model Visualization in the School Textbook. CEUR-WS.org, online (2020, in press) 31. Kulikova, Ja.V., Matokhina, A.V., Shcherbakova, N.L.: Obzor bibliotek komp’juternogo zrenija dlja proektirovanija komponentov dopolnennoj real’nosti v uchebnom processe (Review of OCR libraries for augmented reality components in education). Nauka vchera, segodnja, zavtra 6(40), 27–32 (2017) 32. Kyrylenko, O.V., Blinov, I.V., Parus, Y.V., Ivanov, H.A.: Simulation model of day ahead market with implicit consideration of power systems network constraints. Tekhnichna elektrodynamika 5, 60–67 (2019). doi:10.15407/techned2019.05.060 33. Labs | FabLabs. https://www.fablabs.io/labs?q%5Bcountry_code_eq%5D=ua (2020). Accessed 21 Mar 2020 34. 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 35. Lavrentieva, O.O., Rybalko, L.M., Tsys, O.O., Uchitel, A.D.: Theoretical and methodical aspects of the organization of students’ independent study activities together with the use of ICT and tools. In: Kiv, A.E., Soloviev, V.N. (eds.) Proceedings of the 6th Workshop on Cloud Technologies in Education (CTE 2018), Kryvyi Rih, Ukraine, December 21, 2018. CEUR Workshop Proceedings 2433, 102–125. http://ceur-ws.org/Vol-2433/paper06.pdf (2019). Accessed 10 Sep 2019 36. Lee K.: Augmented reality in education and training. TechTrends 2(56), 13-21 (2012) 37. Leshko, К.V., Rykova, L.L.: Augmented reality as a tool in creative development of future education professionals. New Computer Technology 17, 76–81 (2019) 38. Machynska, N.I.: Navchalne proektuvannia yak chynnyk rozvytku osobystosti u konteksti akmeolohichnoho pidkhodu (Educational design as a factor of personality development in the context of acmeological approach). Problemy osvity 84, 226–232 (2015) 39. Milgram, P., Kishino, F.: A taxonomy of mixed reality visual displays. IEICE Transactionson Information Systems E77-D(12), 1321–1329 (1994) 40. Mintii, I.S., Soloviev, V.N.: Augmented Reality: Ukrainian Present Business and Future Education. In: Kiv, A.E., Soloviev, V.N. (eds.) Proceedings of the 1st International Workshop on Augmented Reality in Education (AREdu 2018), Kryvyi Rih, Ukraine, October 2, 2018. CEUR Workshop Proceedings 2257, 227–231. http://ceur-ws.org/Vol2257/paper22.pdf (2018). Accessed 30 Nov 2018 41. Modlo, Ye.O., Semerikov, S.O., Bondarevskyi, S.L., Tolmachev, S.T., Markova, O.M., Nechypurenko, P.P.: Methods of using mobile Internet devices in the formation of the general scientific component of bachelor in electromechanics competency in modeling of technical objects. 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, 217–240. http://ceur-ws.org/Vol2547/paper16.pdf (2020). Accessed 10 Feb 2020 42. Modlo, Ye.O., Semerikov, S.O., Shmeltzer, E.O.: Modernization of Professional Training of Electromechanics Bachelors: ICT-based Competence Approach. In: Kiv, A.E., Soloviev, V.N. (eds.) Proceedings of the 1st International Workshop on Augmented Reality in Education (AREdu 2018), Kryvyi Rih, Ukraine, October 2, 2018. CEUR Workshop Proceedings 2257, 148–172. http://ceur-ws.org/Vol-2257/paper15.pdf (2018). Accessed 21 Mar 2019 43. Modlo, Ye.O., Semerikov, S.O.: Xcos on Web as a promising learning tool for Bachelor’s of Electromechanics modeling of technical objects. 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, 34–41. http://ceur-ws.org/Vol-2168/paper6.pdf (2018). Accessed 21 Mar 2019 44. Moiseienko, M.V., Moiseienko, N.V., Kohut, I.V., Kiv, A.E.: Digital competence of pedagogical university student: definition, structure and didactical conditions of formation. 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, CEURWS.org, online (2020, in press) 45. Morkun, V., Semerikov, S., Hryshchenko, S., Slovak, K.: Environmental Geo-information Technologies as a Tool of Pre-service Mining Engineer’s Training for Sustainable Development of Mining Industry. In: Ermolayev, V., Bassiliades, N., Fill, H.-G., Yakovyna, V., Mayr, H.C., Kharchenko, V., Peschanenko, V., Shyshkina, M., Nikitchenko, M., Spivakovsky, A. (eds.) 13th International Conference on ICT in Education, Research and Industrial Applications. Integration, Harmonization and Knowledge Transfer (ICTERI, 2017), Kyiv, Ukraine, 15-18 May 2017. CEUR Workshop Proceedings 1844, 303–310. http://ceur-ws.org/Vol-1844/10000303.pdf (2017). Accessed 21 Mar 2019 46. Morkun, V., Semerikov, S., Hryshchenko, S.: Environmental competency of future mining engineers. Metallurgical and Mining Industry 6(4), 4–7 (2014) 47. Nechypurenko, P.P., Starova, T.V., Selivanova, T.V., Tomilina, A.O., Uchitel, A.D.: Use of Augmented Reality in Chemistry Education. In: Kiv, A.E., Soloviev, V.N. (eds.) Proceedings of the 1st International Workshop on Augmented Reality in Education (AREdu 2018), Kryvyi Rih, Ukraine, October 2, 2018. CEUR Workshop Proceedings 2257, 15–23. http://ceur-ws.org/Vol-2257/paper02.pdf (2018). Accessed 30 Nov 2018 48. 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 49. Orlova, E.Ju., Karpova, I.V.: Ispol’zovanie tehnologij dopolnennoj i virtual’noj real’nosti v prepodavanii v tehnicheskom vuze (Using Augmented and Virtual Reality Technologies in Teaching at a Technical University). Metodicheskie voprosy prepodavanija infokommunikacij v vysshej shkole 7(2), 40–43 (2018) 50. Pinchuk, O.P., Sokolyuk, O.M., Burov, O.Yu., Shyshkina, M.P.: Digital transformation of learning environment: aspect of cognitive activity of students. In: Kiv, A.E., Soloviev, V.N. (eds.) Proceedings of the 6 th Workshop on Cloud Technologies in Education (CTE 2018), Kryvyi Rih, Ukraine, December 21, 2018. CEUR Workshop Proceedings 2433, 90–101. http://ceur-ws.org/Vol-2433/paper05.pdf (2019). Accessed 10 Sep 2019 51. Popel, M.V., Shyshkina, M.P.: The Cloud Technologies and Augmented Reality: the Prospects of Use. In: Kiv, A.E., Soloviev, V.N. (eds.) Proceedings of the 1st International Workshop on Augmented Reality in Education (AREdu 2018), Kryvyi Rih, Ukraine, October 2, 2018. CEUR Workshop Proceedings 2257, 232–236. http://ceur-ws.org/Vol2257/paper23.pdf (2018). Accessed 30 Nov 2018 52. Popov, O., Iatsyshyn A., Kovach, V., Artemchuk, V., Taraduda, D., Sobyna, V., Sokolov, D., Dement, M., Yatsyshyn, T., Matvieieva, I.: Analysis of Possible Causes of NPP Emergencies to Minimize Risk of Their Occurrence. Nuclear and Radiation Safety 1(81), 75–80 (2019). doi:10.32918/nrs.2019.1(81).13 53. Popov, O., Iatsyshyn, A., Kovach, V., Artemchuk, V., Taraduda, D., Sobyna, V., Sokolov, D., Dement, M., Yatsyshyn, T.: Conceptual Approaches for Development of Informational and Analytical Expert System for Assessing the NPP impact on the Environment. Nuclear and Radiation Safety 3(79), 56–65 (2018). doi:10.32918/nrs.2018.3(79).09 54. Popov, O., Yatsyshyn, A.: Mathematical Tools to Assess Soil Contamination by Deposition of Technogenic Emissions. In: Dent, D., Dmytruk, Y. (eds.) Soil Science Working for a Living: Applications of soil science to present-day problems, pp. 127–137. Springer, Cham (2017). doi:10.1007/978-3-319-45417-7_11 55. Pro konkurs (About concurs). http://ict4edu.sumdu.edu.ua (2020). Accessed 21 Mar 2020 56. Quandt, M., Knoke, B., Gorldt, C., Freitag, M., Thoben, K.-D.: General Requirements for Industrial Augmented Reality Applications. Procedia CIRP 72, 1130–1135 (2018). doi:10.1016/j.procir.2018.03.061 57. Rashevska, N.V., Soloviev, V.N.: Augmented Reality and the Prospects for Applying Its in the Training of Future Engineers. In: Kiv, A.E., Soloviev, V.N. (eds.) Proceedings of the 1st International Workshop on Augmented Reality in Education (AREdu 2018), Kryvyi Rih, Ukraine, October 2, 2018. CEUR Workshop Proceedings 2257, 192–197. http://ceurws.org/Vol-2257/paper18.pdf (2018). Accessed 30 Nov 2018 58. Sahin, D., Yilmaz, R.M.: The effect of Augmented Reality Technology on middle school students’ achievements and attitudes towards science education. Computers & Education 144, 103710 (2020). doi:10.1016/j.compedu.2019.103710 59. Scaravetti, D., Doroszewski, D.: Augmented Reality experiment in higher education, for complex system appropriation in mechanical design. Procedia CIRP 84, 197–202 (2019). doi:10.1016/j.procir.2019.04.284 60. Schrier, K.: Student Postmortem: Reliving the Revolution. https://tinyurl.com/y8fp7ugr (2006). Accessed 25 Oct 2019 61. Shapovalov, V.B., Atamas, A.I., Bilyk, Zh.I., Shapovalov, Ye.B., Uchitel, A.D.: Structuring Augmented Reality Information on the stemua.science. In: Kiv, A.E., Soloviev, V.N. (eds.) Proceedings of the 1st International Workshop on Augmented Reality in Education (AREdu 2018), Kryvyi Rih, Ukraine, October 2, 2018. CEUR Workshop Proceedings 2257, 75–86. http://ceur-ws.org/Vol-2257/paper09.pdf (2018). Accessed 30 Nov 2018 62. Shcho take dopovnena realnist i chym vona vidrizniaietsia vid virtualnoi realnosti? (What is augmented reality and how is it different from virtual reality?). https://blog.comfy.ua/ua/shho-take-dopovnena-realnist-i-chim-vona-vidriznyaehtsya-vidvirtualnoyi-realnosti (2018). Accessed 25 Oct 2019 63. Shkitsa, L.E., Yatsyshyn, T.M., Popov, A.A., Artemchuk, V.A.: Prognozirovanie rasprostranenija zagrjaznjajushhih veshhestv v atmosfere na territorii burovoj ustanovki (The development of mathematical tools for ecological safe of atmosfere on the drilling well area). Neftjanoe hozjajstvo 11, 136–140 (2013) 64. Shkitsa, L.Y., Panchuk, V.G., Kornuta, V.A.: Innovative methods of popularizing technical education. Proceedings of the Conference Innovative Ideas in Science 2016, Baia Mare, Romania, November 10–11, 2016. IOP Conference Series: Materials Science and Engineering 200, 012023 (2016). doi:10.1088/1757-899X/200/1/012023 65. Sorko, S.R., Brunnhofer, M.: Potentials of Augmented Reality in Training. Procedia Manufacturing 31, 85–90 (2019). doi:10.1016/j.promfg.2019.03.014 66. Spirin, O.M., Nosenko, Yu.H., Iatsyshyn, A.V.: Current Requirements and Contents of Training of Qualified Scientists on Information and Communication Technologies in Education. Information Technologies and Learning Tools 56(6), 219–239 (2016). doi:10.33407/itlt.v56i6.1526 67. Striuk, A.M., Rassovytska, M.V., Shokaliuk, S.V.: Using Blippar Augmented Reality Browser in the Practical Training of Mechanical Engineers. In: Ermolayev, V., Suárez-Figueroa, M.C., Yakovyna, V., Kharchenko, V., Kobets, V., Kravtsov, H., Peschanenko, V., Prytula, Ya., Nikitchenko, M., Spivakovsky A. (eds.) Proceedings of the 14th International Conference on ICT in Education, Research and Industrial Applications. Integration, Harmonization and Knowledge Transfer (ICTERI, 2018), Kyiv, Ukraine, 14- 17 May 2018, vol. II: Workshops. CEUR Workshop Proceedings 2104, 412–419. http://ceur-ws.org/Vol-2104/paper_223.pdf (2018). Accessed 30 Nov 2018 68. 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 25 Oct 2019 69. Systema zabezpechennya innovatsiynoyi diyalʹnosti dlya pidvyshchennya yakosti navchalʹnoho protsesu ZVO: dosvid Sumsʹkoho derzhavnoho universytetu (System of providing innovative activity for improvement of quality of educational process of University: experience of Sumy State University). Rozrobka na konkurs XI Mizhnarodnoyi vystavky “Innovatyka v suchasniy osviti – 2019”. Sumy State University, Sumy (2019) 70. Vashchenko, H.: Zahalni metody navchannia (General teaching methods). Derzhavne vydavnytstvo Ukrainy, Kharkiv (1929) 71. Vasyliev, A.V. (ed.): IT-zabezpechennia diialnosti innovatsiinoho universytetu: dosvid ukrainskoho vyshu (IT-support of the innovative university: the experience of the Ukrainian University). SumDU, Sumy (2016) 72. Vasyliev, A.V., Liubchak, V.O., Khomenko, V.V.: Pobudova innovatsiinoi systemy upravlinnia universytetom: intehrovana informatsiina systema (Building an Innovative University Management System: An Integrated Information System). Vyshcha shkola 1, 40–45 (2011) 73. Voronenko, T.I.: Klasyfikatsiia navchalnykh proektiv (Classification of educational projects). Problemy suchasnoho pidruchnyka 17, 76–91 (2016) 74. Vseukrainskyi konkurs z vykorystannia vlasnykh mobilnykh prystroiv u navchalnomu protsesi (All-Ukrainian competition on the use of own mobile devices in the educational process). https://sites.google.com/a/cct.sumdu.edu.ua/m-edu/ (2018). Accessed 25 Oct 2019 75. Wu, H.-K., Lee, S.W.-Y., Chang, H.-Y., Liang, J.-C.: Current status, opportunities and challenges of augmented reality in education. Computers & Education 62, 41–49 (2013). doi:10.1016/j.compedu.2012.10.024 76. Yuen S.C.-Y., Yaoyuneyong G., Johnson E.: Augmented reality: An overview and five directions for AR in education. Journal of Educational Technology Development and Exchange 4(1), 119–140 (2011). doi:10.18785/jetde.0401.10 77. Zaporozhets A., Eremenko V., Serhiienko R., Ivanov S.: Methods and Hardware for Diagnosing Thermal Power Equipment Based on Smart Grid Technology. In: Shakhovska N., Medykovskyy M. (eds.) Advances in Intelligent Systems and Computing III. CSIT 2018. Advances in Intelligent Systems and Computing, vol. 871, pp. 476–489. Springer, Cham (2019). doi:10.1007/978-3-030-01069-0_34 78. Zaporozhets A.O., Eremenko V.S., Serhiienko R.V., Ivanov S.A.: Development of an intelligent system for diagnosing the technical condition of the heat power equipment. In: 2018 IEEE 13th International Scientific and Technical Conference on Computer Sciences and Information Technologies (CSIT), Lviv, Ukraine, September 11-14, 2018, pp. 48–51. IEEE (2018). doi:10.1109/STC-CSIT.2018.8526742 79. Zilberman, N.N., Serbin, V.A.:. Vozmozhnosti ispolzovaniia prilozhenii dopolnennoi realnosti v obrazovanii (Possibilities of using augmented reality applications in education). Otkrytoe i distantcionnoe obrazovanie 4(56), 28–33 (2014) 80. Zinonos, N.O., Vihrova, E.V., Pikilnyak, A.V.: Prospects of Using the Augmented Reality for Training Foreign Students at the Preparatory Departments of Universities in Ukraine. In: Kiv, A.E., Soloviev, V.N. (eds.) Proceedings of the 1st International Workshop on Augmented Reality in Education (AREdu 2018), Kryvyi Rih, Ukraine, October 2, 2018. CEUR Workshop Proceedings 2257, 87–92. http://ceur-ws.org/Vol-2257/paper10.pdf (2018). Accessed 30 Nov 2018 81. Zinovieva, I.S., Artemchuk, V.O., Iatsyshyn, A.V.: The use of open geoinformation systems in computer science education. Information Technologies and Learning Tools 68(6), 87–99 (2018). doi:10.33407/itlt.v68i6.2567 82. Zuban, Yu., Lavryk, T., Ivanets, S.: Intehrovane seredovyshche rozroblennia dystantsiinykh kursiv na osnovi proektnoho pidkhodu (Integrated development environment for distant courses based on project approach). Tekhnichni nauky ta tekhnolohii 4, 148–154 (2016)

Show full item record