Abstract
Augmented reality (AR) is one from many multimedia technologies which allows computer-generated content to be seamlessly overlaid and mixed into humans’ perceptions of the real world. In educational field, many researchers believe AR technology can improve user interface technology and has a huge potential implication as well as numerous benefits from the virtual augmentation of learning environments or even a teaching process. However, in the earlier researches about AR geometry educational tool, researchers did not use any pedagogical approach in its application design process. In fact, a pedagogical approach is needed for creating an effective educational application to make sure students’ learning time is spent productively. In this research, we try to create AR geometry educational tool by using design-based learning and game-based learning approach to create a better geometry educational tool. Furthermore, the application also used iterative software development lifecycle that requires a series of prototype to find the best AR game mechanics in geometry learning process.
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References
Yuen, S.C., Yaoyuneyong, G., Johnson, E.: Augmented reality: an overview and five directions for AR in education. J. Educ. Technol. Dev. Exch. 4(1), 119–140 (2011)
Owen, M., Owen, S., Barajas, M., Trifonova, A.: Pedagogic issues and questions from the science centre to go, augmented reality, project implementation. In: Augmented Reality in Education, Proceedings of the “Science Center To Go’ Workshops, pp. 3–15. Ellinogermaniki Agogi, Greece (2011)
Geiger, P., Schickler, M., Pryss, R., Schobel, J., Reichert, M.: Location-based mobile augmented reality applications: challenges, examples, lessons learned. In: 10th International Conference on Web Information Systems and Technologies, pp. 383–394, Spain (2014)
Gargalakos, M., Rogalas, D. EXPLOAR: visualizing the invisible, augmented reality in education. In: Proceedings of the “Science Center To Go’ Workshops, pp. 51–61, Greece (2011)
Shelton, B.E., Hedley, N.R.: Using augmented reality for teaching earth-sun relationship to undergraduate geography students. In: The First IEEE International Augmented Reality Toolkit Workshop pp. 1–8, Germany (2002)
Klopfer, E., Squire, K.: Environmental detectives—the development of an augmented reality platform for environmental simulations. Educ. Technol. Res. Dev. 56(2), 203–228 (2006)
Kaufmann, H.: Collaborative augmented reality in education. In: Proceedings of Imagina 2003 Conference, pp. 1–4, Monaco (2003)
Holloway, D., Green, L., Livingstone, S.: Zero to eight: young children and their internet use, LSE. EU Kids Online, London (2013)
Kaufmann, H., Schmalstieg, D.: Designing immersive virtual reality for geometry education. In: IEEE Virtual Reality Conference, pp. 51–58, Alexandria (2006)
Kirner, T.G., Reis, F.M.V., Kirner, C.: Development of an interactive book with augmented reality for teaching and learning geometric shapes. In: 7th Iberian Conference on Information Systems and Technologies, pp. 1–6, Madrid (2012)
Purnama, J., Andrew, D., Galinium, M.: Geometry learning tool for elementary school using augmented reality. In: International Conference on Industrial Automation and Information & Communications Technology, pp. 145–148, Indonesia (2014)
Radu, I., Doherty, E., DiQuolo, K., Tiu, M.: Cyberchase shape quest: pushing geometry education boundaries with augmented reality. In: The 14th International Conference on Interaction Design and Children, pp. 430–433 (2015).
Le, H.Q., Kim, J.I.: An augmented reality application with hand gestures for learning 3D geometry. In: IEEE International Conference on Big Data and Smart Computing, Shanghai, China (2017)
Jain, P., Manweiler, J., Choudhury, R.R.: OverLay: practical mobile augmented reality. In: 13th Annual International Conference on Mobile Systems, Applications, and Services, pp. 331–344, New York (2015)
Barfield, W.: Fundamentals of Wearable Computers and Augmented Reality, 2nd edn. CRC Press, Florida (2015)
Schell, J.: The Art of Game Design: Book of Lenses, 1st edn. CRC Press, Florida (2008)
Shabalina, O., Mozelius, P., Malliarakis, C., Tomos, F., Balan, O.C., Blackey, H., Gerkushenko, G.: Combining game-flow and learning objectives in educational games. In: 8th European Conference on Games-based Learning (2014)
Aldrich, C.: Learning by Doing: A Comprehensive Guide to Simulations, Computer Games, and Pedagogy in e-Learning and Other Educational Experiences, 1st edn. Pfeiffer, San Francisco (2005)
Bower, M., Howe C., McCredie N., Robinson, A., Grover, D.: Augmented reality in education – cases, places and potentials. In: International Council for Educational Media, pp. 1–15, Singapore (2013)
De Graaff, E., Kolmos, A.: Characteristics of problem-based learning. Int. J. Eng. Educ. 19(5), 657–662 (2013)
Gomez Puente, S.M.: Design-based learning: exploring an educational approach for engineering education, pp. 171–195 (2014). Chap. 8
Gómez Puente, S.M., van Eijck, M., Jochems, W.: A sampled literature review of design based learning approaches: a search for key characteristics. Int. J. Technol. Des. Educ. 23(3), 717–732 (2013)
Gómez Puente, S.M., van Eijck, M., Jochems, W.: Empirical validation of characteristics of design-based learning in higher education. Int. J. Eng. Educ. 29(2), 491–503 (2013)
Van Haren, R.: Engaging learner diversity through learning by design. E-learn. Dig. Media 7(3), 258–271 (2010)
Tarng, W., Ou, K.-L.: A Study of campus butterfly ecology learning system based on augmented reality and mobile learning. In: IEEE 7th International Conference on Wireless, Mobile and Ubiquitous Technology in Education, pp. 62–66, Takamatsu (2012)
Trybus, J.: Game-based learning: what it is, why it works, and where it’s going. New Media Institute, Pittsburgh, Pennsylvania (2014)
Ifenthaler, D., Eseryel, D., Ge, X.: Assessment for game-based learning. In: Ifenthaler, D., Eseryel, D., Ge, X. (eds.) Assessment in Game-Based Learning, pp. 1–8. Springer, New York (2012). https://doi.org/10.1007/978-1-4614-3546-4_1
Loh, C.S.: Information trails: in-process assessment of game-based learning. In: Ifenthaler, D., Eseryel, D., Ge, X. (eds.) Assessment in Game-Based Learning, pp. 123–144. Springer, New York (2012). https://doi.org/10.1007/978-1-4614-3546-4_8
Csikszentmihalyi, M.: Beyond Boredom and Anxiety, 1st edn. Jossey-Bass, San Fransisco (1975)
Pausch, R., Gold, R., Skelly, T., Thiel, D.: What HCI designers can learn from video game designers. In: Conference on Human Factors in Computer Systems, pp. 177–178, Boston (1994)
Shute, V.J., Ke, F.: Games, learning, assessment. In: Ifenthaler, D., Eseryel, D., Ge, X. (eds.) Assessment in Game-Based Learning, pp. 43–58. Springer, New York (2012). https://doi.org/10.1007/978-1-4614-3546-4_4
Zimmerman, B.J., Schunk, D.H.: Models of self-regulated learning. In: Zimmerman, B.J., Schunk, D.H. (eds.) Self-regulated Learning and Academic Achievement, pp. 1–25. Springer, Heidelberg (1989). https://doi.org/10.1007/978-1-4612-3618-4_1
Gee, J.P.: What Video Games have to Teach us About Learning and Literacy, 2nd edn. St. Martin’s Griffin, New York (2007)
Pulli, K., Baksheev, A., Kornyakov, K., Eruhimov, V.: Real-time computer vision with OpenCV. Commun. ACM 55, 61–69 (2012)
Fullerton, T., Swain, C., Hoffman, S.: Game Design Workshop: a Playcentric Approach to Creating Innovative Games, 2nd edn. Morgan Kaufmann, San Francisco (2006)
Bartle, R.: Hearts, clubs, diamonds, spades: players who suit MUDs. J. MUD Res. 1(1), 19–42 (1996)
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Young, J.C., Santoso, H.B. (2018). Preliminary Study of JunoBlock: Marker-Based Augmented Reality for Geometry Educational Tool. In: Abdullah, N., Wan Adnan, W., Foth, M. (eds) User Science and Engineering. i-USEr 2018. Communications in Computer and Information Science, vol 886. Springer, Singapore. https://doi.org/10.1007/978-981-13-1628-9_20
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