Augmented Reality dengan Model Generate Target dalam Visualisasi Objek Digital pada Media Pembelajaran
DOI:
https://doi.org/10.35134/jmi.v30i1.143Keywords:
Augmented Reality (AR), kontent digital, Model Generate Target (MGT), digital twins, media ajarAbstract
Augmented Reality (AR) is a digital technology that allows the creation of a combination between the real world and digital content projections to produce additional valuable information for users. This technology has begun to implement in various fields of human life like industry, health, military, entertainment, and education. AR technology will be applied to the education sector in this community service activity. This activity aims to introduce AR technology and a development model based on the Model Generate Target (MGT) to service partners, namely SMA INS Kayu Tanam. The Generate Target model is an AR application development concept by adopting the concept of Digital Twins, where digital content projections will be made similar to real objects. The projected digital content will serve as a descriptive object from the real world, so users can interact more flexibly with objects from the real world. The activity was carried out by providing an introduction to AR technology, installing AR design software, and practicing making simple AR applications using the MGT concept for partner service to the community. In this activity, the designed AR will use spherical objects in the real world and the resulting digital projection is a virus. Projection of digital content onto spherical objects will provide better information and learning experiences in viral object recognition because 3D objects will appear and be attached to real objects. The expected results of this community service activity are introducing AR technology to partners engaged in education and providing a new solution in implementing new digital content-based teaching media that can be applied to several subjects such as biology, chemistry, and glasses to community service partners.
References
Permana, R., Mandala, E. P. W., Putri, D. E., & Yanto, M. (2022). Penerapan Teknologi Augmented Reality dan Virtual Reality dalam Peningkatan Pembelajaran Siswa Sekolah Dasar. Majalah Ilmiah UPI YPTK, 7-12. https://doi.org/ 10.35134/jmi.v29i1.90.
Vertucci, R., D’Onofrio, S., Ricciardi, S., & De Nino, M. (2023). History of Augmented Reality. In Springer Handbook of Augmented Reality (pp. 35-50). Cham: Springer International Publishing. https://doi.org/10.1007/978-3-030-67822-7_2.
Jayawardena, N. S., Thaichon, P., Quach, S., Razzaq, A., & Behl, A. (2023). The persuasion effects of virtual reality (VR) and augmented reality (AR) video advertisements: A conceptual review. Journal of Business Research, 160, 113739. https://doi.org/10.1016/j.jbusres.2023.113739.
Voinea, G. D., Gîrbacia, F., Duguleană, M., Boboc, R. G., & Gheorghe, C. (2023). Mapping the Emergent Trends in Industrial Augmented Reality. Electronics, 12(7), 1719. https://doi.org/10.3390/electronics12071719.
Eswaran, M., Gulivindala, A. K., Inkulu, A. K., & Raju Bahubalendruni, M. V. A. (2023). Augmented reality-based guidance in product assembly and maintenance/repair perspective:: A state of the art review on challenges and opportunities. https://doi.org/ 10.1016/j.eswa.2022.118983.
Loachamín-Valencia, M., Mejía-Guerrero, J., Villavicencio Álvarez, V. E., Cárdenas-Delgado, S., & Paredes Calderón, D. M. (2022, November). A Virtual Shooting Range, Experimental Study for Military Training. In International Conference on Applied Technologies (pp. 412-425). Cham: Springer Nature Switzerland.
Lex, J. R., Koucheki, R., Toor, J., & Backstein, D. J. (2023). Clinical applications of augmented reality in orthopaedic surgery: A comprehensive narrative review. International Orthopaedics, 47(2), 375-391. https://doi.org/10.1007/s00264-022-05507-w.
Fitria, T. N. (2023). Augmented Reality (AR) and Virtual Reality (VR) Technology in Education: Media of Teaching and Learning: A Review. International Journal of Computer and Information System (IJCIS), 4(1), 14-25. [Online]. Available: http://www.ijcis.net/index.php/ijcis/article/view/102/98.
Petrovych, O., Zavalniuk, I., Bohatko, V., Poliarush, N., & Petrovych, S. (2023). Motivational Readiness of Future Teachers-Philologists to Use the Gamification with Elements of Augmented Reality in Education. International Journal of Emerging Technologies in Learning (Online), 18(3), 4. https://doi.org/10.3991/ijet.v18i03.36017.
Maraza-Quispe, B., Alejandro-Oviedo, O. M., Llanos-Talavera, K. S., Choquehuanca-Quispe, W., Choquehuayta-Palomino, S. A., & Caytuiro-Silva, N. (2023). Towards the Development of Emotions through the Use of Augmented Reality for the Improvement of Teaching-Learning Processes. International Journal of Information and Education Technology, 13(1), 56-63. https://doi.org/10.18178/ijiet.2023.13.1.1780.
Özeren, S., & Top, E. (2023). The effects of Augmented Reality applications on the academic achievement and motivation of secondary school students. Malaysian Online Journal of Educational Technology, 11(1), 25-40. https://doi.org/10.52380/mojet.2023.11.1.425.
Villagran-Vizcarra, D. C., Luviano-Cruz, D., Pérez-Domínguez, L. A., Méndez-González, L. C., & Garcia-Luna, F. (2023). Applications Analyses, Challenges and Development of Augmented Reality in Education, Industry, Marketing, Medicine, and Entertainment. Applied Sciences, 13(5), 2766. https://doi.org/10.3390/app13052766.
Cao, J., Lam, K. Y., Lee, L. H., Liu, X., Hui, P., & Su, X. (2023). Mobile augmented reality: User interfaces, frameworks, and intelligence. ACM Computing Surveys, 55(9), 1-36. https://doi.org/10.1145/3557999.
Schmidthaler, E., Hörmann, C., Andjic, B., Rottenhofer, M., Sabitzer, B., & Lavicza, Z. (2023, March). Employment of mobile augmented reality in biological education: a comparison of perceptions regarding Austrian secondary school teachers and students. In Society for Information Technology & Teacher Education International Conference (pp. 1776-1784). Association for the Advancement of Computing in Education (AACE). [Online]. Available: https://www.learntechlib.org/p/222050.
Ferrão, J., Dias, P., Santos, B. S., & Oliveira, M. (2023). Environment-Aware Rendering and Interaction in Web-Based Augmented Reality. Journal of Imaging, 9(3), 63. https://doi.org/10.3390/jimaging9030063.
De Backer, P., Van Praet, C., Simoens, J., Lores, M. P., Creemers, H., Mestdagh, K., ... & Mottrie, A. (2023). Improving Augmented Reality Through Deep Learning: Real-time Instrument Delineation in Robotic Renal Surgery. European Urology, 84(1), 86-91. https://doi.org/10.1016/j.eururo.2023.02.024.
Hlayel, M., & Jawad, M. S. (2023). Leverage Digital Transformation in Distance Learning for Maximum Students’ Engagement by Utilization of the Integrated Technologies of Digital Twin, Extended Realities and Gamification. International Journal of Computing Sciences Research, 7, 1594-1620. 2022, https://doi.org/10.25147/ijcsr.2017.001.1.119.
Jiang, Y., Li, M., Wu, W., Wu, X., Zhang, X., Huang, X., ... & Huang, G. G. (2023). Multi-domain ubiquitous digital twin model for information management of complex infrastructure systems. Advanced Engineering Informatics, 56, 101951. https://doi.org/10.1016/j.aei.2023.101951.
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