Aplikasi Pengenalan Anatomi Manusia Berbasis Augmented Reality
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Abstract
Augmented Reality (AR) is an attempt to combine the real world and the virtual world in real-time. A real object that serves as a marker is used for positioning virtual objects that have been identified by the camera. Augmented Reality is widely used in various fields, one of which is the field of education. In the field of education Augmented Reality is used as an interactive learning media to be more creative, interesting and innovative. This Augmented Reality technology can be applied in the human anatomy learning system. The use of Augmented Reality technology is expected to display objects in the form of 3D virtual human body parts in a marker book as props. Markers detected by an android-based smartphone camera will display anatomical objects that will be used by the teacher, so that students can observe how the human anatomy looks in realtime.
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References
Aprilinda, Y., Endra, R. Y., Afandi, F. N., Ariani, F., Cucus, A., & Lusi, D. S. (2020). Implementasi Augmented Reality untuk media pembelajaran biologi di sekolah menengah pertama. Explore: Jurnal Sistem informasi dan telematika (Telekomunikasi, Multimedia dan Informatika), 11(2), 124-133.
Ramdani, P., Hidayat, E. W., & Shofa, R. N. (2019). Pengenalan anatomi tubuh manusia berbasis Augmented Reality untuk laboratorium biologi. Jurnal Siliwangi Seri Sains dan Teknologi, 5(2).
Layona, R., Yulianto, B., & Tunardi, Y. (2018). Web based Augmented Reality for human body anatomy learning. Procedia Computer Science, 135, 457-464. DOI: https://doi.org/10.1016/j.procs.2018.08.197.
Kurniawan, M. H., & Witjaksono, G. (2018). Human anatomy learning systems using Augmented Reality on mobile application. Procedia Computer Science, 135, 80-88. DOI: https://doi.org/10.1016/j.procs.2018.08.152.
Dreimane, S., & Daniela, L. (2021). Educational potential of Augmented Reality mobile applications for learning the anatomy of the human body. Technology, Knowledge and Learning, 26, 763-788. DOI: https://doi.org/10.1007/s10758-020-09461-7.
Fajrianti, E. D., Sukaridhoto, S., Rasyid, M., Suwito, B. E., Budiarti, R. P. N., Hafidz, I. A. A., ... & Haz, A. L. (2022). Application of augmented intelligence technology with human body tracking for human anatomy education. IJIET: International Journal of Information and Education Technology, 12(6), 476-484.
Fajrianti, E. D., Sukaridhoto, S., Al Rasyid, M. U. H., Budiarti, R. P. N., Al Hafidz, I. A., Satrio, N. A., & Firmanda, A. (2021, September). Design and development of human anatomy learning platform for medical students based on augmented intelligence technology. In 2021 International Electronics Symposium (IES) (pp. 195-202). IEEE. DOI: : https://doi.org/10.1109/IES53407.2021.9594053.
Carmigniani, J., Furht, B., Anisetti, M., Ceravolo, P., Damiani, E., & Ivkovic, M. (2011). Augmented Reality technologies, systems and applications. Multimedia tools and applications, 51, 341-377. DOI: https://doi.org/10.1007/s11042-010-0660-6
Nassi, I., & Shneiderman, B. (1973). Flowchart techniques for structured programming. ACM Sigplan Notices, 8(8), 12-26.
Fauzan, R., Siahaan, D., Rochimah, S., & Triandini, E. (2019, July). Use case diagram similarity measurement: A new approach. In 2019 12th International Conference on Information & Communication Technology and System (ICTS) (pp. 3-7). IEEE. DOI: 10.1109/ICTS.2019.8850978.
Touseef, M., Anwer, N., Hussain, A., & Nadeem, A. (2015). Testing from UML design using activity diagram: a comparison of techniques. International Journal of Computer Applications, 975, 8887.