Abstract
In this paper, we design interactive games systems that adopt augmented reality (AR) technology. By virtue of a conventional webcam for capturing source images, we develop real-time visual tracking techniques based on edge detection and make 3D virtual objects display on our defined markers that are within the source images in the field of view (FOV) of the webcam. Two kinds of gaming interfaces are created for example: one is an AR based Monopoly game, and the other is an AR based fighting game. There are five classic human computer interface design methods considered to create the above AR based game systems. In the example of Monopoly games, we demonstrate how a traditional table game can be turned into an interactive computer game using the AR technology. We also list the advantages of a marker based approach and state why it is suitable for the interactive computer game. Further, the existing popular game consoles with different gaming interfaces are compared to the two AR based game systems. The comparison results reveal that our proposed AR based game systems are lower in cost and better in extensibility.
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References
AR Defender, (December 31, 2012), http://www.ardefender.com/
Kato, H., Billinghurst, M.: Marker tracking and HMD calibration for a video-based augmented reality conferencing system. In: Proceedings of the 2nd IEEE and ACM International Workshop on Augmented Reality, San Francisco, California, pp. 85–94 (1999)
Koh, R.K.C., Duh, H.B.-L., Gu, J.: An integrated design flow in user interface and interaction for enhancing mobile AR gaming experiences. In: Proceedings of the IEEE International Symposium on Mixed and Augmented Reality - Arts, Media, and Humanities, Seoul, South Korea, pp. 47–52 (2010)
Kirner, C., Zorzal, E., Kirner, T.: Case studies on the development of games using augmented reality. In: A Practical Guide to Usability Testing. Intellect Ltd, Bristol (1999)
Colvin, R., Hung, T., Jimison, D., Johnson, B., Myers, E., Blaine, T.: A dice game in third person augmented reality. In: Proceedings of the IEEE International Workshop on the Augmented Reality Toolkit, Tokyo, Japan, pp. 3–4 (2003)
Lange, B., Chang, C.-Y., Suma, E., Newman, B., Rizzo, A.S., Bolas, M.: Development and evaluation of low cost game-based balance rehabilitation tool using the Microsoft Kinect sensor. In: Proceedings of the IEEE Engineering in Medicine and Biology Society, Boston, Massachusetts, pp. 1831–1834 (2011)
Komlodi, A., Jozsa, E., Hercegfi, K., Kucsora, S., Borics, D.: Empirical usability evaluation of the Wii controller as an input device for the VirCA immersive virtual space. In: Proceedings of the 2nd International Conference on Cognitive Infocommunications, Budapest, Hungary, pp. 1–6 (2011)
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Fahn, CS., Wu, ML., Liu, WT. (2013). On the Use of Augmented Reality Technology for Creating Interactive Computer Games. In: Shumaker, R. (eds) Virtual, Augmented and Mixed Reality. Systems and Applications. VAMR 2013. Lecture Notes in Computer Science, vol 8022. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-39420-1_37
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DOI: https://doi.org/10.1007/978-3-642-39420-1_37
Publisher Name: Springer, Berlin, Heidelberg
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