Development of website-based deep learning media for backward roll gymnastics instruction

Zaky Sabri(1), Zulbahri Zulbahri(2), Sri Gusti Handayani(3), Eval Edmizal(4),
(1) Universitas Negeri Padang  Indonesia
(2) Universitas Negeri Padang  Indonesia
(3) Universitas Negeri Padang  Indonesia
(4) Universitas Negeri Padang  Indonesia

Corresponding Author


DOI : https://doi.org/10.32698/02422

Full Text:    Language : en

Abstract


This study aimed to develop and evaluate website-based gymnastics learning media integrated with a deep learning approach to improve backward rolling skills among Physical Education students at Universitas Negeri Padang. This research employed a Research and Development (R&D) design using the ADDIE model, consisting of Analysis, Design, Development, Implementation, and Evaluation stages. The product was validated by material and media experts, followed by small-scale and large-scale trials. Effectiveness testing involved an experimental group (n = 30) and a control group (n = 27) using a pretest–posttest control group design. Material and media expert validation scores reached 93.34% and 95.00%, respectively. Practicality scores were 86.81% in the small-scale trial and 85.90% in the large-scale trial. Significant differences were found between the experimental and control groups for backward roll angle (t = 4.721, p < 0.001) and backward roll round performance (t = 3.586, p = 0.001). The developed website-based learning media was valid, practical, and effective in improving students’ backward rolling skills and can serve as an innovative instructional tool in gymnastics learning.

Keywords


Website-based Learning Media; Deep Learning; Gymnastics Education; Backward Rolling Skills

References


Akbar, R. A., & Ali Yassin, S. H. (2024). Special exercises using tools and their effect on learning the skill of landing with Salto backward tucked to stand on the horizontal bar. Journal of Physical Education (20736452), 36(3).

Ariansyah, F., & Usra, M. (2025). Application of the Throwing Catch Ball Method in Improving Learning Outcomes Volleyball Upper Passing at Junior High School Negeri 13 Palembang. COMPETITOR: Jurnal Pendidikan Kepelatihan Olahraga, 17(2), 1111–1118.

Chaniago, H., Puspitorini, W., & Mahyudi, Y. V. (n.d.). Implementation of fundamental movement learning gymnastics in elementary schools. Journal Of Sport Education (JOPE), 6(2), 115–125.

Chen, Y., & Jacques, L. A. (2024). Creating and performing educational gymnastics using computational thinking skills. Journal of Teaching in Physical Education, 44(3), 468–476.

Cosper, S. H., Männel, C., & Mueller, J. L. (2024). Auditory associative word learning in adults: The effects of musical experience and stimulus ordering. Brain and Cognition, 180, 106207. https://doi.org/https://doi.org/10.1016/j.bandc.2024.106207

Dewi, R. A., Arifin, S., Setiawan, W., & Muis, K. (2026). Efforts To Improve Backward Roll Gymnastics Learning Outcomes Through The Application Of Audio-Visual Learning Media. COMPETITOR: Jurnal Pendidikan Kepelatihan Olahraga, 18(2), 3578–3586.

Fahmi, M., Azandi, F., Mawardinur, M., & Sagala, R. S. (2025). The Relationship between Arm Muscle Explosive Strength, Leg Muscle Explosive Strength, and Abdominal Muscle Strength on Volleyball Smash Performance in High School Students. I-Core: International Journal of Sport Science, 1(1), 29–37.

Fan, G., Wang, Y., Wang, T., & Yang, D. (2025). Construction of intelligent gymnastics teaching model based on neural network and artificial intelligence. Scientific Reports, 15(1), 22105.

Fauzi, R. A., Suherman, A., Saptani, E., Tingsabhat, S., & Heryanto, M. (2026). Correction: The effect of digital video feedback on roundoff learning outcomes in gymnastics learning (Sec. Physical Education and Pedagogy, (2026) 8, (10.3389/fspor.2026.1771596)). Frontiers in Sports and Active Living, 8. https://doi.org/10.3389/fspor.2026.1846652

Finteel, A. K., Kadhem, A. A., & Hussien, A. A. (2022). Effect of educational curriculum on coordination and learning of forward and backward rolls on floor mats in female artistic gymnastics. SPORT TK-Revista EuroAmericana de Ciencias Del Deporte, 11, 30.

Fitriliyanto, D. A., Wahyudi, U., & Kurniawan, R. (2022). Development of front and back rolling mobile learning media for class x students of SMAN 1 Pamekasan. Journal of Science and Education (Jse), 3(2), 184–195.

Gatia, A. J. (2024). The effect of inquiry-based learning style in learning the skill of front rolling in artistic gymnastics for second-stage students in the Faculty of Physical Education and Sports Sciences according to their double coding. Journal of Physical Education (20736452), 36(3).

Ghorbel, A., Abdelkefi, H., Yaakoubi, M., Trabelsi, O., Masmoudi, L., Weiss, K., Rosemann, T., Knechtle, B., & Gharbi, A. (2026). Blended learning in physical education: Examining the effectiveness of the “did you know?” model in gymnastics. Acta Psychologica, 263, 106284.

Ghorbel, A., Romdhani, A., Yaakoubi, M., Trabelsi, O., Souissi, M. A., Kammoun, M. M., Masmoudi, L., & Gharbi, A. (2025). Integrating gamified blended learning in gymnastics: effects on motor skill development, knowledge retention, and motivation in physical education settings. Education and Information Technologies, 1–19.

Ghorbel, A., Trabelsi, O., Yaakoubi, M., Souissi, M. A., & Gharbi, A. (2025). Flipped classroom approach for gymnastics learning in physical education: A quasi-experimental study. International Journal of Sports Science & Coaching, 20(1), 300–312.

Handayani, S. G., Komaini, A., Mario, D. T., Ayubi, N., & Muthahari, Z. (2026). Android-assisted gymnastics learning media to improve backward roll skills: A comparative analysis. Journal of Physical Education and Sport, 26(1), 121–129.

Invernizzi, P. L., Signorini, G., Colella, D., Raiola, G., Bosio, A., & Scurati, R. (2020). Assessing rolling abilities in primary school children: Physical education specialists vs. generalists. International Journal of Environmental Research and Public Health, 17(23), 8803.

Khataybeh, A., & Khasawneh, G. (2024). The effectiveness of cooperative learning strategy for mastery in enhancing the skill performance of some gymnastics floor movements. Pedagogy of Physical Culture and Sports, 28(4), 292–300.

Korichko, Y. V., Krasova, A. A., & Korichko, A. A. (2022). Application of exercises of aesthetic and artistic gymnastics in the physical education of students. Teoriya i Praktika Fizicheskoy Kultury, 2022(7), 35–37. https://www.scopus.com/pages/publications/85135257387?origin=resultslist

Li, Q., Ahmed, I., Minh Ngoc, P., Phuong Hoa, T., Vinh Dieu, T., Irshad, M. S., Xuan Nang, H., & Dao, V.-D. (2024). Contemporary advances in polymer applications for sporting goods: fundamentals, properties, and applications. RSC Advances, 14(50), 37445–37469. https://doi.org/https://doi.org/10.1039/d4ra06544a

Lobo, J. (2025). “Making Gymnastics Enjoyable and Sustainable:” Positioning Gymnastics in Physical Education through Individual Interest Bolstering Study Engagement for a Lifelong and Healthy Lifestyle. Physical Culture and Sport, Studies and Research, 111(1), 61–72. https://doi.org/10.2478/pcssr-2025-0030

Mahdi, A. B. W., Mahdi, M. W., Mahdi, T. W., & Sattar Jassim, R. A. (2024). Effectiveness of the Proposed Skill Exercises on Reaction Speed and Learning Skills on the Gymnastics Balance Beam for Female Students of Department of Physical Education and Sports Sciences. Eurasian Journal of Educational Research (EJER), 112.

McMurray, A., Ison, S., & Wahl-Alexander, Z. (2025). A Skill Theme Approach to Teaching Fundamental Motor Skills Through Gymnastics-Based Activities. Journal of Physical Education, Recreation & Dance, 96(5), 6–13.

McVeigh, J., & Waring, M. (2023). Developing the pedagogical practice of physical education pre-service teachers in gymnastics: exploring gendered embodiment. Physical Education and Sport Pedagogy, 28(4), 397–410. https://doi.org/10.1080/17408989.2021.1990246

Ooi, S., Mahiro, H., & Goto, T. (2024). Development Reflection Application for Backward Roll Motion based on Pose Recognition. Proceedings of the 2024 13th International Conference on Software and Computer Applications, 70–74.

Plancher, K. D., Briggs, K. K., Zuccaro, P., Tucker, E. E., & Petterson, S. C. (2024). Arthroscopic Labral Reconstruction With a Modified Inferior Capsular Shift Allows Return to Sport and Excellent Outcomes in Contact and Noncontact Athletes With Anterior Shoulder Instability at Minimum 5-Year Follow-Up. Arthroscopy: The Journal of Arthroscopic & Related Surgery, 40(5), 1420–1430. https://doi.org/https://doi.org/10.1016/j.arthro.2023.10.020

Schoville, M. Ç., Schoville, R. G., Çöğmen, S., & Özelçi, S. Y. (2024). Habitus in elite public high schools: A case study from the perspectives of shareholders. International Journal of Educational Development, 109, 103107. https://doi.org/https://doi.org/10.1016/j.ijedudev.2024.103107

Silveira, A. M. C., Luz, B. C., Martinez, A. F., & Serrão, F. V. (2024). Effect of augmented feedback on classical ballet jump kinematics: A single-blind randomized controlled trial. The Knee, 46, 71–79. https://doi.org/https://doi.org/10.1016/j.knee.2023.11.003

Starzak, M., Biegajło, M., Nogal, M., Niźnikowski, T., Ambroży, T., Rydzik, Ł., & Jaszczur-Nowicki, J. (2022). The role of verbal feedback in the motor learning of gymnastic skills: A systematic review. Applied Sciences, 12(12), 5940.

Storli, L., Sandseter, E. B. H., & Lorås, H. (2024). Individual differences in children’s movement variability in a virtual reality playground task. Human Movement Science, 93, 103171. https://doi.org/https://doi.org/10.1016/j.humov.2023.103171

Susilowati, H., Suherman, W. S., Hastuti, T. A., Rahayu, P., & Hartanto, A. (2024). Anxiety of class IV elementary school students in learning physical education gymnastics: Anxiety differences based on gender; [Lęk uczniów klasy IV szkoły podstawowej podczas nauki gimnastyki w ramach wychowania fizycznego: Różnice w lęku w zależności od płci]. Fizjoterapia Polska, 24(3), 197–201. https://doi.org/10.56984/8ZG020A7GE

Xu, Z., Wang, C., & Huang, K. (2024). BiF-DETR:Remote sensing object detection based on Bidirectional information fusion. Displays, 84, 102802. https://doi.org/https://doi.org/10.1016/j.displa.2024.102802

Yang, H., Cheng, G., & Cheng, S. (2026). Advanced utilization of motion decomposition and visualization technology in gymnastics education. Frontiers in Psychology, 17. https://doi.org/10.3389/fpsyg.2026.1794257


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