dc.description |
K. Vlasenko, S. Volkov, I. Sitak, I. Lovianova, D. Bobyliev, Usability analysis of on-line educational
courses on the platform “Higher school mathematics teacher”, E3S Web of Conferences 166 (2020)
10012. doi:10.1051/e3sconf/202016610012.
[2] M. Hohenwarter, J. Hohenwarter, Y. Kreis, Z. Lavicza, Teaching and Learning Calculus with
Free Dynamic Mathematics Software GeoGebra, in: ICME 11 – 11th International Congress on
Mathematical Education, Nuevo Leon, Monterrey, 2008.
[3] A. Teichrew, R. Erb, How augmented reality enhances typical classroom experiments: Examples
from mechanics, electricity and optics, Physics Education 55 (2020). doi:10.1088/1361-6552/
abb5b9.
[4] S. O. Semerikov, T. A. Vakaliuk, I. S. Mintii, V. A. Hamaniuk, O. V. Bondarenko, P. P. Nechypurenko, S. V. Shokaliuk, N. V. Moiseienko, Immersive cloud-based educational environment
of the university: Design principles, CEUR Workshop Proceedings 3771 (2024) 126–135. URL:
https://ceur-ws.org/Vol-3771/paper27.pdf.
[5] S. O. Semerikov, T. A. Vakaliuk, I. S. Mintii, V. A. Hamaniuk, O. V. Bondarenko, P. P. Nechypurenko,
S. V. Shokaliuk, N. V. Moiseienko, Development of digital competencies in immersive cloudbased educational environment, CEUR Workshop Proceedings 3781 (2024) 203–208. URL: https:
//ceur-ws.org/Vol-3781/paper27.pdf.
[6] F. Del Cerro Velázquez, G. M. Méndez, Application in augmented reality for learning mathematical
functions: A study for the development of spatial intelligence in secondary education students,
Mathematics 9 (2021) 1–19. doi:10.3390/math9040369.
[7] M. I. S. Guntur, W. Setyaningrum, The Effectiveness of Augmented Reality in Learning Vector to
Improve Students’ Spatial and Problem-Solving Skills, International Journal of Interactive Mobile
Technologies 15 (2021) 159–173. doi:10.3991/ijim.v15i05.19037.
[8] T. H. Kramarenko, O. S. Pylypenko, V. I. Zaselskiy, Prospects of using the augmented reality
application in STEM-based Mathematics teaching, in: A. E. Kiv, M. P. Shyshkina (Eds.), Proceedings
of the 2nd International Workshop on Augmented Reality in Education, Kryvyi Rih, Ukraine, March 22, 2019, volume 2547 of CEUR Workshop Proceedings, CEUR-WS.org, 2019, pp. 130–144.
URL: https://ceur-ws.org/Vol-2547/paper10.pdf.
[9] M. Shabanova, O. Bezumova, E. Zatsepina, S. Malysheva, S. Kotova, R. Ovchinnikova, Learning
stereometry in a secondary school within GeoGebra’s Augmented Reality app, Journal of Physics:
Conference Series 1691 (2020) 012115. doi:10.1088/1742-6596/1691/1/012115.
[10] Lainufar, M. Mailizar, R. Johar, Exploring the potential use of GeoGebra augmented reality in a
project-based learning environment: The case of geometry, Journal of Physics: Conference Series
1882 (2021) 012045. doi:10.1088/1742-6596/1882/1/012045.
[11] I. H. Batubara, S. Saragih, E. Simamora, E. E. Napitupulu, N. Nuraini, D. N. Sari, A. Anim, I. P.
Sari, E. Rahmadani, E. Syafitri, Improving Student Mathematics Communication Ability through
Problem Based Learning Assisted by Augmented Reality Based on Culture, AIP Conference
Proceedings 2659 (2022). doi:10.1063/5.0113258.
[12] V. Ferdiánová, J. Poruba, Augmented reality in lecture on constructional geometry, in: 19th
Conference on Applied Mathematics, APLIMAT 2020 Proceedings, Slovak University of Technology
in Bratislava, 2020, pp. 408–417.
[13] Mailizar, R. Johar, Examining students’ intention to use augmented reality in a project-based
geometry learning environment, International Journal of Instruction 14 (2021) 773–790. doi:10.
29333/iji.2021.14243a.
[14] T. Tkachenko, O. Yeremenko, A. Kozyr, V. Mishchanchuk, W. Liming, Integration Aspect of
Training Teachers of Art Disciplines in Pedagogical Universities, Journal of Higher Education
Theory and Practice 22 (2022) 138–147. doi:10.33423/jhetp.v22i6.5236.
[15] C. M. R. Caridade, GeoGebra Augmented Reality: Ideas for Teaching and Learning Math, in: F. Yilmaz, A. Queiruga-Dios, M. J. Santos Sánchez, D. Rasteiro, V. Gayoso Martínez, J. Martín Vaquero
(Eds.), Mathematical Methods for Engineering Applications, volume 384 of Springer Proceedings in Mathematics & Statistics, Springer International Publishing, Cham, 2022, pp. 235–244. doi:10.1007/978-3-030-96401-6_22.
[16] K. H. Cheong, C. E. Chu, W. K. Ng, D. J. Yeo, Implementing GeoGebra 3D Calculator With
Augmented Reality in Multivariable Calculus Education, IEEE Access 12 (2024) 85455–85464.
doi:10.1109/ACCESS.2024.3394531.
[17] O. Iparraguirre-Villanueva, C. Paulino-Moreno, H. Chero-Valdivieso, K. Espinola-Linares,
M. Cabanillas-Carbonell, Integration of GeoGebra Calculator 3D with Augmented Reality in
Mathematics Education for an Immersive Learning Experience, International Journal of Engineering Pedagogy 14 (2024) 92–107. doi:10.3991/ijep.v14i3.47323.
[18] S. El Bedewy, K. Choi, Z. Lavicza, K. Fenyvesi, T. Houghton, STEAM Practices to Explore Ancient
Architectures Using Augmented Reality and 3D Printing with GeoGebra, Open Education Studies
3 (2021) 176–187. doi:10.1515/edu-2020-0150.
[19] S. El Bedewy, Z. Lavicza, B. Haas, D. Lieban, A STEAM Practice Approach to Integrate Architecture,
Culture and History to Facilitate Mathematical Problem-Solving, Education Sciences 12 (2022) 9.
doi:10.3390/educsci12010009.
[20] S. El Bedewy, Z. Lavicza, I. Lyublinskaya, Steam practices connecting mathematics, arts,
architecture, culture and history in a non-formal learning environment of a museum, Journal
of Mathematics and the Arts 18 (2024) 101 – 134. URL: https://www.scopus.com/inward/record.
uri?eid=2-s2.0-85187476020&doi=10.1080%2f17513472.2024.2321563&partnerID=40&md5=
96624b28c6517e95f91cd254502aea78. doi:10.1080/17513472.2024.2321563.
[21] A. N. Cahyono, Z. Lavicza, Designing Landmark-Based STEAM Projects for Cross-Country Math
Trail Activities with Augmented Reality and 3D Printing Technologies, International Journal for
Technology in Mathematics Education 30 (2023) 241–246. doi:10.1564/tme_v30.4.6. P. S. Nam, L. H. Thai, Z. Lavicza, A. Schmid, T. Houghton, Augmented Reality as a Tool to Support
the Connection Between Reality and Mathematical Knowledge: A Case for Teaching Parallel
Relations of Planes in Space, International Journal for Technology in Mathematics Education 31
(2024) 135–142. doi:10.1564/tme_v31.3.04.
[23] S. Bagossi, O. Swidan, F. Arzarello, Timeline tool for analyzing the relationship between students125
Tetiana H. Kramarenko et al. CEUR Workshop Proceedings 117–126
teachers-artifacts interactions and meaning-making, Journal on Mathematics Education 13 (2022)
357–382. doi:10.22342/jme.v13i2.pp357-382. S. Bagossi, O. Swidan, Learning Second-order Covariation with GeoGebra and Augmented
Reality, International Journal for Technology in Mathematics Education 30 (2023) 213–218.
doi:10.1564/tme_v30.4.2.
[25] C. Walkington, M. J. Nathan, J. Hunnicutt, J. Washington, M. Zhou, New kinds of embodied
interactions that arise in augmented reality dynamic geometry software, Journal of Mathematical
Behavior 75 (2024) 101175. doi:10.1016/j.jmathb.2024.101175.
[26] T. H. Kramarenko, O. S. Pylypenko, I. O. Muzyka, Application of GeoGebra in Stereometry teaching,
CEUR Workshop Proceedings 2643 (2020) 705–718.
[27] T. H. Kramarenko, O. S. Pylypenko, GeoGebra AR Demo: The sphere is inscribed in a pyramid,
Video, 2021. URL: https://youtu.be/oohbLc19Llo.
[28] T. H. Kramarenko, O. S. Pylypenko, GeoGebra AR Demo: A sphere described around a right
quadrangular pyramid, Video, 2021. URL: https://youtu.be/JSkdu1lgWlg.
[29] M. I. Skanavi (Ed.), Collection of problems in mathematics for applicants to universities, Minsk,
1990.
[30] M. Tomaschko, S. A. Kocadere, M. Hohenwarter, Opportunities for Participation, Productivity, and
Personalization Through GeoGebra Mathematics Apps, in: A. A. Khan, S. Umair (Eds.), Handbook
of Research on Mobile Devices and Smart Gadgets in K-12 Education, IGI Global, Hershey, 2018,
pp. 45–56. doi:10.4018/978-1-5225-2706-0.ch004.
[31] B. Haas, Y. Kreis, Z. Lavicza, Integrated STEAM Approach in Outdoor Trails with Elementary
School Pre-service Teachers, Educational Technology and Society 24 (2021) 205–219.
[32] N. V. Osypova, V. I. Tatochenko, Improving the learning environment for future mathematics teachers with the use application of the dynamic mathematics system GeoGebra AR, in: S. H. Lytvynova,
S. O. Semerikov (Eds.), Proceedings of the 4th International Workshop on Augmented Reality
in Education (AREdu 2021), Kryvyi Rih, Ukraine, May 11, 2021, volume 2898 of CEUR Workshop
Proceedings, CEUR-WS.org, 2021, pp. 178–196. URL: https://ceur-ws.org/Vol-2898/paper10.pdf. |
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