Virtual reality in algorithm programming course: Practicality and implications for college students

Hafizul Fahri Hanafi

QR Code Link :
Type :	Article
Subject :	T Technology (General)
ISBN :	2549-9904
Main Author :	Hafizul Fahri Hanafi
Title :	Virtual reality in algorithm programming course: Practicality and implications for college students
Hits :	82

Place of Production :	Tanjung Malim
Publisher :	Fakulti Komputeran & Meta-Teknologi
Year of Publication :	2024
Notes :	International Journal on Informatics Visualization
Corporate Name :	Universiti Pendidikan Sultan Idris
HTTP Link :	Click to view web link
PDF Full Text :	You have no permission to view this item.

Abstract : Universiti Pendidikan Sultan Idris

Virtual Reality (VR) is one of the revolutionary technologies in education that can simulate learning interactively and realistically. The reliability of VR supports various variations in learning, including learning programming algorithms. This research aims to design and develop VR in learning programming algorithms. The ADDIE model is applied in this study to develop products through the stages of analysis, design, development, implementation, and evaluation. The analysis of learning problems shows the unavailability of interactive learning media that can support various learning styles of students in programming algorithm materials. Therefore, this VR learning design integrates various elements of students' learning styles, including visual, audiovisual, kinesthetic, and reading. The product developed is in the form of a VR application that presents learning by having a variety of learning styles. Audiovisual displays are presented in a VR environment, while kinesthetic interactions are obtained through user movements, and material information and readings are presented in a VR environment. The data collected included the results of a practicality and effectiveness test involving sixty-six students. The results of the practicality test show that this VR product is practical to use based on the indicators of convenience, attractiveness, efficiency, and benefits. Meanwhile, the effectiveness test shows that this VR product can improve learning outcomes better than traditional learning methods. Overall, the VR products developed have proven to be practical and effective in learning programming algorithms. The presence of VR, which presents a variety of realistic displays in a virtual environment, opens opportunities for further research related to distance learning through VR technology as well as an analysis of the impact of VR on health. © 2024, Politeknik Negeri Padang. All rights reserved.

References

Society 5.0. Springer Singapore, 2020. doi: 10.1007/978-981-15-2989-4.

N. N. A. Said, H. F. Hanafi, F. H. Naning, M. M. Alim, and I. P. Dewi, “A review of barriers and benefits for implementing computational thinking initiatives in secondary schools,” J. ICT Educ., vol. 11, no. 1, pp. 127–140, 2024.

N. H. Adi et al., “Emotion analysis of blended learning experience during pandemic using Twitter data,” in AIP Conference Proceedings, AIP Publishing, 2024.

D. Satria, Z. Zamzani, N. Nurhadi, and E. Arief, “Technology and Language: Improving Speaking Skills through Cybergogy-Based Learning,” JOIV : International Journal on Informatics Visualization, vol. 8, no. 2, p. 710, May 2024, doi: 10.62527/joiv.8.2.2215.

D. Fitriani, G. Santoso, M. Rantina, and M. Asbari, “Total Transformation of Our Education 21st Century,” J. Pendidik. Transform., vol. 2, no. 3, pp. 61–65, 2023.

Khoirunnisa, “Towards a Golden Indonesia 2045: Transforming 21st Century Skills Education,” Proceedings of the 4th International Seminar and Call for Paper, pp. 41–47, 2023, doi:10.5220/0012580100003821.

M. Coban, Y. I. Bolat, and I. Goksu, “The potential of immersive virtual reality to enhance learning: A meta-analysis,” Educational Research Review, vol. 36, p. 100452, Jun. 2022, doi:10.1016/j.edurev.2022.100452.

A. D. Samala et al., “Global Publication Trends in Augmented Reality and Virtual Reality for Learning: The Last Twenty-One Years,” International Journal of Engineering Pedagogy (iJEP), vol. 13, no. 2, pp. 109–128, Mar. 2023, doi: 10.3991/ijep.v13i2.35965.

A. Marougkas, C. Troussas, A. Krouska, and C. Sgouropoulou, “Virtual Reality in Education: A Review of Learning Theories, Approaches and Methodologies for the Last Decade,” Electronics, vol. 12, no. 13, p. 2832, Jun. 2023, doi: 10.3390/electronics12132832.

F. Mufit, Y. Hendriyani, and M. Dhanil, “Design immersive virtual reality (IVR) with cognitive conflict to support practical learning of quantum physics,” Journal of Turkish Science Education, Jun. 2024, doi: 10.36681/tused.2024.020.

P. Šiđanin, J. Plavšić, I. Arsenić, and M. Krmar, “Virtual reality (VR) simulation of a nuclear physics laboratory exercise,” European Journal of Physics, vol. 41, no. 6, p. 065802, Oct. 2020, doi: 10.1088/1361- 6404/ab9c90.

B. Xie et al., 2021 “A review on virtual reality skill training applications,” Front. Virtual Real., vol. 2, p. 645153.

V. Komianos, “Immersive Applications in Museums: An Analysis of the Use of XR Technologies and the Provided Functionality Based on Systematic Literature Review,” JOIV : International Journal on Informatics Visualization, vol. 6, no. 1, p. 60, Mar. 2022, doi:10.30630/joiv.6.1.708.

D. Georgieva, G. Koleva, and I. Hristova, “Virtual Technologies in the Medical Professions - Creation of 360 - Degree Environments for Health Care Training,” TEM Journal, pp. 1314–1318, Aug. 2021, doi:10.18421/tem103-39.

S. Sukaridhoto, E. D. Fajrianti, A. L. Haz, R. P. N. Budiarti, and L. Agustien, “Implementation of Virtual Fiber Optic Module Using Virtual Reality for Vocational Telecommunications Students,” JOIV : International Journal on Informatics Visualization, vol. 7, no. 2, p. 356, May 2023, doi: 10.30630/joiv.7.2.1361.

A. D. Samala et al., “Metaverse Technologies in Education: A Systematic Literature Review Using PRISMA,” International Journal of Emerging Technologies in Learning (iJET), vol. 18, no. 05, pp. 231– 252, Mar. 2023, doi: 10.3991/ijet.v18i05.35501.

A. Marougkas, C. Troussas, A. Krouska, and C. Sgouropoulou, “How personalized and effective is immersive virtual reality in education? A systematic literature review for the last decade,” Multimedia Tools and Applications, vol. 83, no. 6, pp. 18185–18233, Jul. 2023, doi:10.1007/s11042-023-15986-7.

S. George-Williams, R. Pullen, and S. Schmid, “Virtual Reality, help or hindrance? A case study of two undergraduate student-generated chemistry lessons,” International Journal of Innovation in Science and Mathematics Education, vol. 28, no. 2, Oct. 2020, doi:10.30722/ijisme.28.02.002.

J.-Y. Wong et al., “BIM-VR Framework for Building Information Modelling in Engineering Education,” International Journal of Interactive Mobile Technologies (iJIM), vol. 14, no. 06, p. 15, Apr. 2020, doi: 10.3991/ijim.v14i06.13397.

S. I. Malik, R. Mathew, A. Al‐Sideiri, J. Jabbar, R. Al‐Nuaimi, and R. M. Tawafak, “Enhancing problem‐solving skills of novice programmers in an introductory programming course,” Comput. Appl. Eng. Educ., vol. 30, no. 1, pp. 174–194, 2022.

G. Rodrigues, A. F. Monteiro, and A. J. Osório, “Introductory programming in higher education: A systematic literature review,” 2022.

This material may be protected under Copyright Act which governs the making of photocopies or reproductions of copyrighted materials.
You may use the digitized material for private study, scholarship, or research.

Back to previous page