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Поле DC | Значення | Мова |
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dc.contributor.author | Osadchyi, Viacheslav V. | - |
dc.contributor.author | Chemerys, Hanna Y. | - |
dc.contributor.author | Osadcha, Kateryna P. | - |
dc.contributor.author | Kruhlyk, Vladyslav S. | - |
dc.contributor.author | Koniukhov, Serhii L. | - |
dc.contributor.author | Ків, Арнольд Юхимович | - |
dc.date.accessioned | 2021-09-06T18:52:15Z | - |
dc.date.available | 2021-09-06T18:52:15Z | - |
dc.date.issued | 2020-11-08 | - |
dc.identifier.citation | Osadchyi V. V. Conceptual model of learning based on the combined capabilities of augmented and virtual reality technologies with adaptive learning systems / Viacheslav V. Osadchyi, Hanna Y. Chemerys, Kateryna P. Osadcha, Vladyslav S. Kruhlyk, Serhii L. Koniukhov, Arnold E. Kiv // CEUR Workshop Proceedings. - 2020. - Vol. 2731. - P. 328-340. | uk |
dc.identifier.issn | 1613-0073 | - |
dc.identifier.uri | http://ceur-ws.org/Vol-2731/paper19.pdf | - |
dc.identifier.uri | http://elibrary.kdpu.edu.ua/xmlui/handle/123456789/4417 | - |
dc.identifier.uri | https://doi.org/10.31812/123456789/4417 | - |
dc.description | 1. Barkatov, I.V., Farafonov, V.S., Tiurin, V.O., Honcharuk, S.S., Barkatov, V.I., Kravtsov, H.M.: New effective aid for teaching technology subjects: 3D spherical panoramas joined with virtual reality. 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) 2. Bilous, V.V., Proshkin, V.V., Lytvyn, O.S.: Development of AR-applications as a promising area of research for students. 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) 3. Bilousova, L.I., Kolgatin, O.H., Kolgatina, L.S.: Computer Simulation as a Method of Learning Research in Computational Mathematics. CEUR Workshop Proceedings 2393, 880–894 (2019) 4. Bondarenko, O.V., Mantulenko, S.V., Pikilnyak, A.V.: Google Classroom as a Tool of Support of Blended Learning for Geography Students. CEUR Workshop Proceedings 2257, 182–191 (2018) 5. Bondarenko, O.V., Pakhomova, O.V., Lewoniewski, W.: The didactic potential of virtual information educational environment as a tool of geography students training. CEUR Workshop Proceedings 2547, 13–23 (2020) 6. Brusilovsky, P., Peylo, C.: Adaptive and intelligent Web-based educational systems. International Journal of Artificial Intelligence in Education 13(2–4): Adaptive and Intelligent Web-based Educational Systems, 159–172 (2003). doi:10.5555/1434845.1434847 7. Buzko, V.L., Bonk, A.V., Tron, V.V.: Implementation of Gamification and Elements of Augmented Reality During the Binary Lessons in a Secondary School. CEUR Workshop Proceedings 2257, 53–60 (2018) 8. Cerevrum - Develop your people's soft skills to enable business growth. https://cerevrum.com/en (2020). Accessed 21 Mar 2020 9. Chauhan, J., Taneja, S., Goel, A.: Enhancing MOOC with augmented reality, adaptive learning and gamification. In: 2015 IEEE 3rd International Conference on MOOCs, Innovation and Technology in Education (MITE), Amritsar, India, Oct. 1-2, 2015, pp. 348– 353. IEEE (2015). doi:10.1109/MITE.2015.7375343 10. Chemerys, H., Osadcha, K., Osadchyi, V., Kruhlyk, V.: Increasing the Level of Graphic Competence Future Bachelor in Computer Sciences in the Process of Studying 3D Modeling. CEUR Workshop Proceedings 2393, 17–28 (2019) 11. Chen, H., Feng, K., Mo, C., Cheng, S., Guo, Z., Huang, Y.: Application of augmented reality in engineering graphics education. In: 2011 IEEE International Symposium on IT in Medicine and Education, Cuangzhou, China, Dec. 9-11, 2011, рр. 362–365. IEEE (2011). doi:10.1109/ITiME.2011.6132125 12. Coimbra, M., Mateus, A.: Augmented Reality: an Enhancer for Higher Education Students in Math’s learning? Procedia Computer Science 67, 332–339 (2015). doi:10.1016/j.procs.2015.09.277 13. de Freitas, M.R., Ruschel, R.C.: What is happening to virtual and augmented reality applied to architecture? In: Stouffs, R., Janssen, P., Roudavski, S., Tunçer, B. (eds.) Open Systems: Proceedings of the 18th International Conference on Computer-Aided Architectural Design Research in Asia (CAADRIA 2013), pp. 407–416. CAADRIA, Hong Kong, and CASA, Department of Architecture NUS, Singapore (2013) 14. Demirbilek, M., Koç, D.: Using Computer Simulations and Games in Engineering Education: Views from the Field. CEUR Workshop Proceedings 2393, 944–951 (2019) 15. Devedžic, V.: Web Intelligence and Artificial Intelligence in Education. Journal of Educational Technology & Society 7(4), 29–39 (2004) 16. Dobrovolskaja, N.J.: The computer neural network technologies as the tool of individualized education of students of physical and mathematical specialties. Dissertation, Krasnodar (2009) 17. Fleming, N.D., Mills, С.: Not Another Inventory, Rather a Catalyst for Reflection. To Improve the Academy 11, 137–155 (1992) 18. Gagarin, O.O., Tytenko, S.V.: The research and analysis of methods and models of intelligence systems of continuous education. Scientific news NTUU “KPI” 6(56), 37–48 (2007) 19. Hainich, R.R.: The End of Hardware: Augmented Reality and Beyond, 3rd edn. BookSurge publishing (2009) 20. Holiver, N., Kurbatova, T., Bondar, I.: Blended learning for sustainable education: Moodlebased English for Specific Purposes teaching at Kryvyi Rih National University. 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, 10006 (2020). doi:10.1051/e3sconf/202016610006 21. Hordiienko, V.V., Marchuk, G.V., Vakaliuk, T.A., Pikilnyak, A.V.: Development of a model of the solar system in AR and 3D. 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) 22. IANS: Send your avatar to class in Japan's first virtual school | Business Standard News. https://www.business-standard.com/article/news-ians/send-your-avatar-to-class-in-japans-first-virtual-school-115050600148_1.html (2015). Accessed 17 Aug 2015 23. 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. CEUR Workshop Proceedings 2547, 181–200 (2020) 24. Kanivets, O.V., Kanivets, I.M., Kononets, N.V., Gorda, T.M., Shmeltser, E.O.: Augmented reality mobile application developments for help to performance tasks from projection drawing. CEUR Workshop Proceedings 2547, 262–273 (2020) 25. Kaur, D.P., Mantri, A., Horan, B.: Design implications for adaptive augmented reality based interactive learning environment for improved concept comprehension in engineering paradigms. Interactive Learning Environments (2019). doi:10.1080/10494820.2019.1674885 26. Kiryakova, G., Angelova, N., Yordanova, L.: The Potential of Augmented Reality to Transform Education into Smart Education. TEM Journal 7(3), 556–565 (2018). doi:10.18421/TEM73-11 27. Kompaniets, A., Chemerys, H., Krasheninnik, I.: Using 3D modelling in design training simulator with augmented reality. CEUR Workshop Proceedings 2546, 213–223 (2019) 28. 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. CEUR Workshop Proceedings 2547, 201–216 (2020) 29. Lavrov, E., Lavrova, O.: Intelligent Adaptation Method for Human-Machine Interaction in Modular E-Learning Systems. CEUR Workshop Proceedings 2393, 1000–1010 (2019) 30. Liarokapis, F., Mourkoussis, N., White, M., Darcy, J., Sifniotis, M., Petridis, P., Basu, A., Lister, P.F.: Web3D and augmented reality to support engineering education. World Transactions on Engineering and Technology Education 3(1), 11–14 (2004) 31. List of participants invited to participate in the final scientific and practical conference 2020 - Scientific activity | Ukrainian Engineering Pedagogics Academy. http://science.uipa.edu.ua/ru/spisok-uchastnikov-priglashennyx-dlya-uchastiya-vitogovoj-nauchno-prakticheskoj-konferencii-2020/ (2020). Accessed 23 May 2020 32. Lvov, M.S., Popova, H.V.: Simulation technologies of virtual reality usage in the training of future ship navigators. CEUR Workshop Proceedings 2547, 50–65 (2020) 33. Marienko, M.V., Nosenko, Yu.H., Shyshkina, M.P.: Personalization of learning using adaptive technologies and augmented reality. 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) 34. Marienko, M., Nosenko, Y., Sukhikh, A., Tataurov, V., Shyshkina, M.: Personalization of learning through adaptive technologies in the context of sustainable development of teachers’ education. 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, 10015 (2020). doi:10.1051/e3sconf/202016610015 35. Markova, O., Semerikov, S., Popel, M.: CoCalc as a learning tool for neural network simulation in the special course “Foundations of Mathematic Informatics”. CEUR Workshop Proceedings 2104, 338–403 (2018) 36. Mintii, I.S., Soloviev, V.N.: Augmented Reality: Ukrainian Present Business and Future Education. CEUR Workshop Proceedings 2257, 227–231 (2018) 37. Murray, Т.: Authoring Intelligent Tutoring Systems: An Analysis of the State of the Art. International Journal of Artificial Intelligence in Education 10, 98–129 (1999) 38. 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. CEUR Workshop Proceedings 2547, 156– 167 (2020) 39. Nosenko, Yu.H., Popel, M.V., Shyshkina, M.P.: The state of the art and perspectives of using adaptive cloud-based learning systems in higher education pedagogical institutions (the scope of Ukraine). CEUR Workshop Proceedings 2433, 173–183 (2019) 40. Oleksiuk, V.P., Oleksiuk, O.R.: Exploring the potential of augmented reality for teaching school computer science. 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) 41. Osadcha, K., Osadchyi, V., Semerikov, S., Chemerys, H., Chorna, A.: The Review of the Adaptive Learning Systems for the Formation of Individual Educational Trajectory. CEURWS.org, online (2020, in press) 42. Padmanaban, N., Konrad, R., Cooper, E., Wetzstein, G.: Optimizing VR for all users through adaptive focus displays. In: ACM SIGGRAPH 2017 Talks (SIG-GRAPH ‘17). ACM, NY, USA, Article 77. ACM (2017). doi:10.1145/3084363.3085029 43. Pavlenko, L., Pushney, O.: Study of the Prospects of Introducing Mixed Learning in Higher Education. Ukrainian Journal of Educational Studies and Information Technology 6(1), 69– 76 (2018). doi:10.32919/uesit.2018.01.10 44. Pavlenko, O., Velykodnyi, D., Lavrentieva, O., Filatov, S.: The Procedures of Logistic Transport Systems Simulation into the Petri Nets Environment. CEUR-WS.org, online (2020, in press) 45. Pererva, V.V., Lavrentieva, O.O., Lakomova, O.I., Zavalniuk, O.S., Tolmachev, S.T.: The technique of the use of Virtual Learning Environment in the process of organizing the future teachers’ terminological work by specialty. CEUR Workshop Proceedings 2643, 321–346 (2020) 46. Petrova, M.Ye., Mintii, M.M., Semerikov, S.O., Volkova, N.P.: Development of adaptive educational software on the topic of “Fractional Numbers” for students in grade 5. CEUR Workshop Proceedings 2292, 162–192 (2018) 47. Poguda, A.A.: The models and algorithms of knowledge control in humanities. Dissertation, Tomsk State University of Control Systems and Radioelectronics (2016) 48. Prokhorov, О.V., Lisovichenko, V.O., Mazorchuk, M.S., Kuzminska, O.H.: Developing a 3D quest game for career guidance to estimate students’ digital competences. 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) 49. Rashevska, N.V., Soloviev, V.N.: Augmented Reality and the Prospects for Applying Its in the Training of Future Engineers. CEUR Workshop Proceedings 2257, 192–197 (2018) 50. Redondo, E., Fonseca, D., Sánchez, A., Navarro, I.: New strategies using handheld augmented reality and mobile learning-teaching methodologies in architecture and building engineering degrees. Procedia Computer Science 25, 52–61 (2013). doi:10.1016/j.procs.2013.11.007 51. Roucek, J.S. (ed.) Programmed Teaching: A Symposium on Automation in Teaching. Philosophical Library, New York (1965) 52. Semerikov, S.O., Teplytskyi, I.O., Yechkalo, Yu.V., Kiv, A.E.: Computer Simulation of Neural Networks Using Spreadsheets: The Dawn of the Age of Camelot. CEUR Workshop Proceedings 2257, 122–147 (2018) 53. Shamonia, V.H., Semenikhina, O.V., Proshkin, V.V., Lebid, O.V., Kharchenko, S.Ya., Lytvyn, O.S.: Using the Proteus virtual environment to train future IT professionals. CEUR Workshop Proceedings 2547, 24–36 (2020) 54. Shapovalova, N., Rybalchenko, O., Dotsenko, I., Bilashenko, S., Striuk, A., Saitgareev, L.: Adaptive Testing Model as the Method of Quality Knowledge Control Individualizing. CEUR Workshop Proceedings 2393, 984–999 (2019) 55. Shirazi, A., Behzadan, A.H.: Design and Assessment of a Mobile Augmented Reality-Based Information Delivery Tool for Construction and Civil Engineering Curriculum. Journal of Professional Issues in Engineering Education and Practic 141(3), 01014012 (2015). doi:10.1061/(ASCE)EI.1943-5541.0000229 56. Şimşek, M., Toklu, S., Özsaraç, H., Zavrak, S., Başer, E., Takgil, B., Kanbur, Z.: An Augmented Reality Application for Computer Engineering Curriculum. Bilişim Teknolojileri Dergisi 10(1), 47–51 (2017) 57. Striuk, A., Rybalchenko, O., Bilashenko, S.: Development and Using of a Virtual Laboratory to Study the Graph Algorithms for Bachelors of Software Engineering. CEURWS.org, online (2020, in press) 58. Striuk, A.M., Rassovytska, M.V., Shokaliuk, S.V.: Using Blippar Augmented Reality Browser in the Practical Training of Mechanical Engineers. CEUR Workshop Proceedings 2104, 412–419 (2018) 59. 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. CEUR Workshop Proceedings 2547, 37–49 (2020) 60. Syvyi, M.J., Mazbayev, O.B., Varakuta, O.M., Panteleeva, N.B., Bondarenko, O.V.: Distance learning as innovation technology of school geographical education. 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) 61. Syrovatskyi, O.V., Semerikov, S.O., Modlo, Ye.O., Yechkalo, Yu.V., Zelinska, S.O.: Augmented reality software design for educational purposes. CEUR Workshop Proceedings 2292, 193–225 (2018) 62. Tlili, A., Denden, M., Essalmi, F., Jemni, M., Chang, M., Kinshuk, Chen, N.-S.: Automatic modeling learner’s personality using learning analytics approach in an intelligent Moodle learning platform. Interactive Learning Environments (2019). doi:10.1080/10494820.2019.1636084 63. Troitska, T., Troitska, O., Popravko, O.: The virtual symbol world in the Homo educandus informational space miscellaneous. Ukrainian Journal of Educational Studies and Information Technology 7(2), 20–27 (2019). doi:10.32919/uesit.2019.02.03 64. Truong, M.H.: Integrating learning styles and adaptive e-learning system: Current developments, problems and opportunities. Computers in Human Behavior 55(B), 1185– 1193 (2016). doi:10.1016/j.chb.2015.02.014 65. Tyshchenko, Ye.Yu., Striuk, A.M.: The relevance of developing a model of adaptive learning. CEUR Workshop Proceedings 2292, 109–115 (2018) 66. Vakaliuk, T., Kontsedailo, V., Antoniuk, D., Korotun, O., Semerikov, S., Mintii, I.: Using Game Dev Tycoon to Develop Professional Soft Competencies for Future EngineersProgrammers. CEUR-WS.org, online (2020, in press) 67. Vakaliuk, T.A., Kontsedailo, V.V., Antoniuk, D.S., Korotun, O.V., Mintii, I.S., Pikilnyak, A.V.: Using game simulator Software Inc in the Software Engineering education. CEUR Workshop Proceedings 2547, 66–80 (2020) 68. Valko, N., Osadchyi, V.: Education individualization by means of artificial neural networks. 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, 10021 (2020). doi:10.1051/e3sconf/202016610021 69. Velev, D., Zlateva, P.: Virtual Reality Challenges in Education and Training. International Journal of Learning and Teaching 3(1), 33–37 (2017). doi:10.18178/ijlt.3.1.33-37 70. Wojtok, A.J., Bab, S., Hirsch, M.: Adaptive learning in virtual reality: current state and new approach. In: Dortmund International Research Conference, pp. 70–76. https://www.researchgate.net/publication/326270979_ADAPTIVE_LEARNING_IN_VIR TUAL_REALITY_CURRENT_STATE_AND_NEW_APPROACH (2018). Accessed 9 April 2020 71. Zelinska, S.O., Azaryan, A.A., Azaryan, V.A.: Investigation of Opportunities of the Practical Application of the Augmented Reality Technologies in the Information and Educative Environment for Mining Engineers Training in the Higher Education Establishment. CEUR Workshop Proceedings 2257, 204–214 (2018) | - |
dc.description.abstract | The article is devoted to actual problem of using modern ICT tools to increase the level of efficiency of the educational process. The current state and relevance of the use of augmented reality (AR) and virtual reality (VR) technologies as an appropriate means of improving the educational process are considered. In particular, attention is paid to the potential of the combined capabilities of AR and VR technologies with adaptive learning systems. Insufficient elaboration of cross-use opportunities for achieving of efficiency of the educational process in state-of-the-art research has been identified. Based on analysis of latest publications and experience of using of augmented and virtual reality technologies, as well as the concept of adaptive learning, conceptual model of learning based on the combined capabilities of AR and VR technologies with adaptive learning systems has been designed. The use of VR and AR technologies as a special information environment is justified, which is applied in accordance with the identified dominant type of students' thinking. The prospects of using the proposed model in training process at educational institutions for the implementation and support of new teaching and learning strategies, as well as improving learning outcomes are determined by the example of such courses as “Algorithms and data structures”, “Computer graphics and three-dimensional modeling”, “Circuit Engineering”, “Computer Architecture”. | uk |
dc.language.iso | en | uk |
dc.publisher | CEUR Workshop Proceedings | uk |
dc.subject | adaptive learning systems | uk |
dc.subject | augmented reality | uk |
dc.subject | virtual reality | uk |
dc.subject | individual learning approach | uk |
dc.subject | individual learning path | uk |
dc.subject | educational modeling | uk |
dc.title | Conceptual model of learning based on the combined capabilities of augmented and virtual reality technologies with adaptive learning systems | uk |
dc.type | Article | uk |
Розташовується у зібраннях: | Збірники наукових праць та матеріали конференцій |
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