Implementation of Augmented Reality Technology For Human Skeletons Learning Based on Android

alders paliling


One of the materials taught in science lesson is about human skeletons. In the learning process of the human skeletal, teachers use props in the form of human skeletal models. With the development of technology, the use of human skeletal models can be replaced with digital models. Human skeletal models can be damaged either by deliberate or accidentally by age. The correct method for replacing the model of a human skeleton into a digital form is by using Augmented Reality technology, where Augmented Reality technology is capable of projecting 3-dimensional objects into the real world directly. The use of augmented reality technology is increasingly prevalent in the world of education, health, sales, and tourism. The results obtained in this study was the application could project 3-dimensional objects from the human skeleton that was divided into 4 parts of the skull, spine and ribs, the bone of the upper tool and the bone of the motion of the bottom of the marker. Based on the tests that have been done, it was concluded that a good distance in identifying markers between smartphones with markers is at a distance between 2-6 inches and marker slope of the smartphone is 00-600


Augmented Reality; Human Skeletons; Science

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Azuma, R. T. (1997). A survey of augmented reality. Presence: Teleoperators & Virtual Environments, 6(4), 355-385.

Katiyar, A., Kalra, K., & Garg, C. (2015). Marker based augmented reality. Advances in Computer Science and Information Technology (ACSIT), 2(5), 441-445.

Paliling, A., & Rusdi, W. (2017, August). APLIKASI AUGMENTED REALITY PENGENALAN DINOSAURUS. In SISITI: Seminar Ilmiah Sistem Informasi dan Teknologi Informasi (Vol. 5, No. 1).

Behmke, D., Kerven, D., Lutz, R., Paredes, J., Pennington, R., Brannock, E., ... & Stevens, K. (2018). Augmented Reality Chemistry: Transforming 2-D Molecular Representations into Interactive 3-D Structures. In Proceedings of the Interdisciplinary STEM Teaching and Learning Conference (Vol. 2, No. 1, pp. 4-12).

Chen, Y. C. (2006, June). A study of comparing the use of augmented reality and physical models in chemistry education. In Proceedings of the 2006 ACM international conference on Virtual reality continuum and its applications (pp. 369-372). ACM.

Paliling, A. (2017). Katalog Penjualan Rumah Berbasis Android Menggunakan Teknologi Augmented Reality dan Virtual Reality. Techno. Com, 16(1), 35-46.

Sahulata, R. A., Wahyudi, A., Wuwungan, B. G., & Nayoan, M. A. (2016). Aplikasi Virtual Reality Pengenalan Kerangka Tubuh Manusia Berbasis Android. Cogito Smart Journal, 2(2), 204-215.

CHIEN, Chien-Huan; CHEN, Chien-Hsu; JENG, Tay-Sheng. An interactive augmented reality system for learning anatomy structure. In: Proceedings of the international multiconference of engineers and computer scientists. Hong Kong, China: International Association of Engineers, 2010. p. 17-19.

Intan, I. Enhacement Of Quality Of Learning Through Material Presentation Based On Multimedia In Barrang Lompo Island (Peningkatan Kualitas Pembelajaran melalui Penyajian Materi Berbasis Multimedia di Pulau Barrang Lompo). Pekommas, 1(2), 121-132.

Katiyar, A., Kalra, K., & Garg, C. (2015). Marker based augmented reality. Advances in Computer Science and Information Technology (ACSIT), 2(5), 441-445.



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