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Detection of Art Exhibitions using Augmented Reality Technology  

Lee, Yong-Hwan (Department Of Digital Contents, Wonkwang University)
Kim, Youngseop (Department of Electronics and Electrical Engineering, Dankook University)
Publication Information
Journal of the Semiconductor & Display Technology / v.17, no.4, 2018 , pp. 101-104 More about this Journal
Abstract
Augmented Reality (AR) is an emerging technology and the applications of technology are still not fully unveiled. This paper explores a new application of augmented reality for new direction in art exhibitions, which aims to bring interactive learning experience to life. The project takes printed images on book or exhibiting arts to the next level by applying AR technology to provide a unique fascinating experience to its readers on mobile devices. AR technology composing with animation brings new digital entertainment experience to the user of art exhibitions. The key feature of this paper uses the technology presents auxiliary information in the field of view of an object on art exhibitions automatically without human intervention.
Keywords
Augmented Reality (AR); ARToolKit; Art Exhibition; Object Detection;
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1 J. Song, M. Cai and M. Lyu, "Edge color distribution transform: An efficient tool for object detection in images," International Conference on Pattern Recognition, Vol. 1, pp. 608-611, Quebec City, Canada, August 11-15, 2002.
2 H. Tang, M. Lyu, and I. King, "Face recognition committee machines: Dynamic vs. static structures," International Conference on Image Analysis and Processing, pp. 121-126, Mantova, Italy, September 17-19, 2003.
3 J. Liaw, I. King, and M. Arbib, "Visual perception of translational and rotational motion," Proceedings Progress in Neural Networks, Vol. 4: Neural Networks in Vision, pp. 77-112, Norwood, NJ, 1997.
4 T. Wong, C. Fu, P. Heng, and C Leung, "The Plenoptic illumination function," IEEE Transactions on Multimedia, Vol. 4, No. 3, pp. 361- 371, 2002.   DOI
5 Wikitude, AR Travel Guide launches with the G1 Android phone on 20 Oct 2008.
6 Wang J., He F., Zhang X. and Gao Y., "Tracking Objects through Occlusions using Improved Kalman Filter", International Conference on Advanced Computer Control, 5(1), pp.223-228, 2010.
7 Leichter I., Lindenbaum M. and Rivlin E., "Meanshift Tracking with Multiple Reference Color Histograms", Computer Vision and Image Understanding, 114(3), pp.400-408, 2010.   DOI
8 Woori Han, Youngseop Kim, Yong-Hwan Lee, "Multi-Object Tracking based on Keypoints", Journal of the Semiconductor and Display Technology, 14(3), pp.67-72, 2015.
9 Ahn H., Lee Y., Lee J. and Cho H., "Research on Target Tracking based on CamShift Approach with Feature Matching", International Conference on Convergence Technology, pp.930-931, 2015.
10 G. R. Bradski, "Computer vision face tracking for use in a perceptual user interface," Intel Technology Journal, 2nd Quarter, 1998.
11 Lowe D. G., "Distinctive Image Features from Scale-Invariant Keypoints", International Journal of Computer Vision, 60(2), pp.91-110, 2004.   DOI
12 Bay H., Tuytelaars T. and Van Gool L., "SURF: Speeded-Up Robust Features", International Conference on ECCV, pp.404-417, 2006.
13 Yong-Hwan Lee, Je-Ho Park, Youngseop Kim, "Comparative Analysis of the Performance of SIFT and SURF", Journal of the Semiconductor and Display Technology, 12(3), pp.59-64, 2013.
14 M.J. Is, "Beyond Earth - Augmented Reality Textbook", 2011.
15 Huibai Wang, Junli Qin, FengQuan Zhang, "A New Interaction Method for Augmented Reality based on ARToolKot", International Congress on Image and Signal Processing, 2015.