World Geography With Augmented Realıty

Nıgmet Koklu, Suleyman Alpaslan Sulak

Abstract


Mobile technologies enable individuals to organize and manage their daily lives through the mobile applications that are used during the day. Augmented reality is one of those applications that can be used on mobile devices. Expectations for the use of new technologies in educational environments increase in parallel with the technological advancements. Thanks to advances in computer, internet and mobile technologies, numerous new applications have emerged that facilitate communication and interaction in educational environments. In particular, the applications of the augmented reality technologies emerging with the advancing technology in the field of education are becoming widespread and easy-to-use. Augmented reality is a technology that enriches the learning process, created by real-time integration of the virtual elements and the real world elements. In geography teaching, different knowledge and skills are expected to be acquired by the learner, therefore augmented reality applications appealing to the different senses of learners can be utilized. AR technology can be used in various fields, especially in education. In addition to increasing productivity, mobile augmented reality applications would  be used for multiple purposes in the field of education with the interactive facilities they offer to user such as 2D and 3D visual support and video playback.


Keywords


Augmented Reality, World Geography, Mobile Devices, Android

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References


Demirezen, B. (2019). Artırılmış gerçeklik ve sanal gerçeklik teknolojisinin turizm sektöründe kullanılabilirliği üzerine bir literatür taraması. Uluslararası Global Turizm Araştırmaları Dergisi, 3(1), 1-26.

Castelvecchi, D. (2016). Low-cost headsets boost virtual reality’s lab appeal. Nature News, 533(7602), 153.

Cipresso, P., Giglioli, I. A. C., Raya, M. A., & Riva, G. (2018). The past, present, and future of virtual and augmented reality research: a network and cluster analysis of the literature. Frontiers in psychology, 9, 2086.

Fernandez, M. (2017). Augmented virtual reality: How to improve education systems. Higher Learning Research Communications, 7(1), 1-15.

Höllerer, T., & Feiner, S. (2004). Mobile augmented reality. Telegeoinformatics: Location-based computing and services, 21.

Van Krevelen, D. W. F., & Poelman, R. (2010). A survey of augmented reality technologies, applications and limitations. International journal of virtual reality, 9(2), 1-20.

Gutierrez, M., Vexo, F., & Thalmann, D. (2008). Stepping into virtual reality. Springer Science & Business Media.

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

Lee, K. (2012). Augmented reality in education and training. TechTrends, 56(2), 13-21.

Bower, M., Howe, C., McCredie, N., Robinson, A., & Grover, D. (2014). Augmented Reality in education–cases, places and potentials. Educational Media International, 51(1), 1-15.

Azuma, R., Baillot, Y., Behringer, R., Feiner, S., Julier, S., & MacIntyre, B. (2001). Recent advances in augmented reality. IEEE computer graphics and applications, 21(6), 34-47.

Akçayır, M., & Akçayır, G. (2017). Advantages and challenges associated with augmented reality for education: A systematic review of the literature. Educational Research Review, 20, 1-11.

Chiang, T. H., Yang, S. J., & Hwang, G.-J. (2014). Students' online interactive patterns in augmented reality-based inquiry activities. Computers & Education, 78, 97-108.

Santos, M. E. C., Chen, A., Taketomi, T., Yamamoto, G., Miyazaki, J., & Kato, H. (2013). Augmented reality learning experiences: Survey of prototype design and evaluation. IEEE Transactions on learning technologies, 7(1), 38-56.

Lin, C. H., & Hsu, P. H. (2017). Integrating procedural modelling process and immersive VR environment for architectural design education. In MATEC Web of Conferences (Vol. 104, p. 03007). EDP Sciences.

Schwald, B., & De Laval, B. (2003). An augmented reality system for training and assistance to maintenance in the industrial context.

Ozbek, C. S., Giesler, B., & Dillmann, R. (2004, May). Jedi training: playful evaluation of head-mounted augmented reality display systems. In Stereoscopic Displays and Virtual Reality Systems XI (Vol. 5291, pp. 454-463). International Society for Optics and Photonics.

Nincarean, D., Alia, M. B., Halim, N. D. A., & Rahman, M. H. A. (2013). Mobile augmented reality: The potential for education. Procedia-social and behavioral sciences, 103, 657-664.

Bacca Acosta, J. L., Baldiris Navarro, S. M., Fabregat Gesa, R., & Graf, S. (2014). Augmented reality trends in education: a systematic review of research and applications. Journal of Educational Technology and Society, 2014, vol. 17, núm. 4, p. 133-149.

De Buck, S., Maes, F., Ector, J., Bogaert, J., Dymarkowski, S., Heidbuchel, H., & Suetens, P. (2005). An augmented reality system for patient-specific guidance of cardiac catheter ablation procedures. IEEE Transactions on Medical Imaging, 24(11), 1512-1524.

Martin, D. J., & Loomis, K. S. (2013). Building teachers: A constructivist approach to introducing education. Cengage Learning.

Yuen, S. C. Y., Yaoyuneyong, G., & Johnson, E. (2011). Augmented reality: An overview and five directions for AR in education. Journal of Educational Technology Development and Exchange (JETDE), 4(1), 11.

Bingol, B. (2018). Yeni Bir Yaşam Biçimi: Artırılmış Gerçeklik (AG). Üsküdar Üniversitesi İletişim Fakültesi Akademik Dergisi Etkileşim, (1), 44-55.

Somyürek, S. (2014). Öğretim sürecinde z kuşağının dikkatini çekme: artırılmış gerçeklik. Eğitim Teknolojisi Kuram ve Uygulama, 4(1), 63-80.

Kaleci, D., Demirel, T., & Akkuş, İ. (2016). Örnek bir artırılmış gerçeklik uygulaması tasarımı. XVIII. Akademik Bilişim Konferansı, Aydın, Türkiye.

Wu, H. K., Lee, S. W. Y., Chang, H. Y., & Liang, J. C. (2013). Current status, opportunities and challenges of augmented reality in education. Computers & education, 62, 41-49.

Henrysson, A., Billinghurst, M., & Ollila, M. (2005, October). Face to face collaborative AR on mobile phones. In Fourth ieee and acm international symposium on mixed and augmented reality (ismar'05) (pp. 80-89). IEEE.

Furió, D., González-Gancedo, S., Juan, M. C., Seguí, I., & Costa, M. (2013). The effects of the size and weight of a mobile device on an educational game. Computers & Education, 64, 24-41.

Chiang, T. H., Yang, S. J., & Hwang, G. J. (2014). Students' online interactive patterns in augmented reality-based inquiry activities. Computers & Education, 78, 97-108.

Hwang, G. J., Tsai, C. C., Chu, H. C., Kinshuk, K., & Chen, C. Y. (2012). A context-aware ubiquitous learning approach to conducting scientific inquiry activities in a science park. Australasian Journal of Educational Technology, 28(5).

Bressler, D. M., & Bodzin, A. M. (2013). A mixed methods assessment of students' flow experiences during a mobile augmented reality science game. Journal of computer assisted learning, 29(6), 505-517.

Yu, D., Jin, J. S., Luo, S., Lai, W., & Huang, Q. (2009). A useful visualization technique: a literature review for augmented reality and its application, limitation & future direction. Visual information communication, 311-337.

Salmat (2018). Augment Reality. Retrieved May 18, 2020, from http://www.salmat.com.tr/tr/artirilmis-gerceklik-154

Frantz, T., Jansen, B., Duerinck, J., & Vandemeulebroucke, J. (2018). Augmenting Microsoft's HoloLens with vuforia tracking for neuronavigation. Healthcare technology letters, 5(5), 221-225.

Linowes, J., & Babilinski, K. (2017). Augmented reality for developers: Build practical augmented reality applications with unity, ARCore, ARKit, and Vuforia. Packt Publishing Ltd.

Peng, F., & Zhai, J. (2017). A mobile augmented reality system for exhibition hall based on Vuforia. In 2017 2nd International Conference on Image, Vision and Computing (ICIVC) (pp. 1049-1052). IEEE.

Kim, Y. G., & Kim, W. J. (2014). Implementation of augmented reality system for smartphone advertisements. international journal of multimedia and ubiquitous engineering, 9(2), 385-392.

Amin, D., & Govilkar, S. (2015). Comparative study of augmented reality SDKs. International Journal on Computational Science & Applications, 5(1), 11-26.

Vuforia Software (n.d.); Getting Started with Vuforia for Android Development. Retrieved May 4, 2020, https://library.vuforia.com/articles/Solution/Getting-Started-with-Vuforia-for-Android-Development.html

Equirectangular projection of World (n.d.). In Wikipedia. Retrieved May 14, 2020. https://tr.wikipedia.org/wiki/E%C5%9Fdikd%C3%B6rtgensel_izd%C3%BC%C5%9F%C3%BCm#/media/Dosya:Blue_Marble_2002.png




DOI: http://dx.doi.org/10.52155/ijpsat.v29.1.3594

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