This work is licensed under the Creative Commons Attribution 4.0 International License.
Sayfullaev, N. (2019). Current Issues on Fine ARTS Education: Continuity and Prospects for Development. Religación: Revista de Ciencias Sociales y Humanidades, 4(20), 192-194.Search in Google Scholar
Kakharovna, A. M., Tadjimatovich, Y. M., Rakhmatovich, S. O., & Mirzahamdamovna, Q. B. (2021). Modern Approaches to the Teaching of Fine Arts. Solid State Technology, 64(2), 4250-4254.Search in Google Scholar
Mulders, M., Buchner, J., & Kerres, M. (2020). A framework for the use of immersive virtual reality in learning environments. International Journal of Emerging Technologies in Learning (iJET), 15(24), 208-224.Search in Google Scholar
Kavanagh, S., Luxton-Reilly, A., Wuensche, B., & Plimmer, B. (2017). A systematic review of virtual reality in education. Themes in science and technology education, 10(2), 85-119.Search in Google Scholar
Elmqaddem, N. (2019). Augmented reality and virtual reality in education. Myth or reality?. International journal of emerging technologies in learning, 14(3).Search in Google Scholar
Sayed, Y., & Bulgrin, E. (2020). Teacher professional development and curriculum: Enhancing teacher professionalism in Africa. Education International.Search in Google Scholar
Roshchin, S. P., & Filippova, L. S. (2020). Artistic literacy in the paradigms of teaching fine arts. Humanities and Social Sciences Reviews, 8(S2), 136.Search in Google Scholar
Połap, D., Kęsik, K., Winnicka, A., & Woźniak, M. (2020). Strengthening the perception of the virtual worlds in a virtual reality environment. ISA transactions, 102, 397-406.Search in Google Scholar
Siu, A. F., Sinclair, M., Kovacs, R., Ofek, E., Holz, C., & Cutrell, E. (2020, April). Virtual reality without vision: A haptic and auditory white cane to navigate complex virtual worlds. In Proceedings of the 2020 CHI conference on human factors in computing systems (pp. 1-13).Search in Google Scholar
Abdullah, F. M., & Ismail, I. K. (2022). The Effect of the Swartz model in the development of lateral thinking among students of the Institute of Fine Arts in the subject of aesthetics. Journal of Positive School Psychology, 6(2).Search in Google Scholar
Dumitru, D. (2019). Creating meaning. The importance of Arts, Humanities and Culture for critical thinking development. Studies in Higher Education, 44(5), 870-879.Search in Google Scholar
Pérez-Fabello, M. J., Campos, A., & Felisberti, F. M. (2018). Object-spatial imagery in fine arts, psychology, and engineering. Thinking Skills and Creativity, 27, 131-138.Search in Google Scholar
Taskesen, S. (2019). A study on art interests and critical thinking dispositions of students in fine arts department of the faculty of education. International Journal of Educational Methodology, 5(2), 275-287.Search in Google Scholar
Liu, P. (2021). Application and Teaching Exploration of Virtual Reality Technology in Art Appreciation. International Journal of Learning and Teaching, 3(7).Search in Google Scholar
Molina-Carmona, R., Pertegal-Felices, M. L., Jimeno-Morenilla, A., & Mora-Mora, H. (2018). Virtual reality learning activities for multimedia students to enhance spatial ability. Sustainability, 10(4), 1074.Search in Google Scholar
Yijiang Huang,Caelan Garrett & Caitlin Mueller. (2024). Constructability-driven design of frame structures with state-space search methods. Automation in Construction105711-105711.Search in Google Scholar
Erfan Nejati,Ensieh Ghaedy Heidary,Amir Ghasemi & S. Ali Torabi. (2024). A machine learning-based simulation metamodeling method for dynamic scheduling in smart manufacturing systems. Computers & Industrial Engineering110507-110507.Search in Google Scholar
Timothy Hayes,Amanda N. Baraldi & Stefany Coxe. (2024). Random forest analysis and lasso regression outperform traditional methods in identifying missing data auxiliary variables when the MAR mechanism is nonlinear (p.s. Stop using Little’s MCAR test). Behavior Research Methods(prepublish), 1-32.Search in Google Scholar
