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Realization of a Motion-based Interactive System Using Extraction of Real-time Search Terms
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  • Journal title : International Journal of Contents
  • Volume 12, Issue 2,  2016, pp.31-36
  • Publisher : The Korea Contents Association
  • DOI : 10.5392/IJoC.2016.12.2.031
 Title & Authors
Realization of a Motion-based Interactive System Using Extraction of Real-time Search Terms
Lim, Sooyeon; Lee, Dongin;
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The purpose of this research is to realize interactive art based on user's motions information using real time internet search terms. For this purpose, real-time search terms and related news information were extracted from three domestic and foreign portal sites, and the extracted information was used to generate content for interaction with the user. For interaction between the generated content and the user, a motion-based interactive technology that optimizes the intentions and experiences of the user was developed. A motion-based interactive system can be used to develop an immersive interface that induces user interest.
Real-time Search Terms;Interactive art;Motion tracking;
 Cited by
H. Shin, A Study on search as media based on 'Uses and gratification theory', focusing a search engine 'NAVER', Master's Thesis, Kwangwoon University, 2009.

Y. Heo, Using real-time popular searches big data and the correlation between stock index, Master's Thesis, Konkuk University, 2014.

B. Jansen, Z. Liu, C. Weaver, G. Campbell, and M. Gregg, “Real time search on the web: Queries, topics, and economic value,” Journal of Information Processing and Management. vol. 47, 2011, pp. 491-506. crossref(new window)

B. Ostermaier, K. Romer, F. Mattern, M. Fahrmair, and W. Kellerer, "A real-time search engine for the web of things," Proc. Internet of Things (IOT), 2010, pp. 1-8.

D. Choi, H. Sim, M. Min, and J. Lee, "Real-time Search Query Analysis using Related News Web Pages," Proc. Korean Institute of Intelligent Systems Conference, vol. 20, no. 4, 2010, pp. 175-177.

Google Trends,

Text Rain,



M. Manigandan and I. Manju, "Wireless vision based mobile robot control using hand gesture recognition through perceptual color space," Proc. Advances in Computer Engineering (ACE), 2010, pp. 95-99.

S. Kao, Z. Yang, and M. Ho, "Design and implementation of a color-based visual tracking control system," Proc. Automatic Control Conference (CACS), 2013, pp. 371-376.

J. Fabian, et al., "Integrating the microsoft kinect with simulink: Real-time object tracking example," Journal of Mechatronics, IEEE/ASME Transactions on Mechatronics, vol. 19, no. 1, 2012, pp. 249-257. crossref(new window)

M. Parzych, A. Dabrowski, and D. Cetnarowicz, “Aspects of Microsoft Kinect sensor application to servomotor control,” Journal of Bulletin of the Polish Academy of Sciences Technical Sciences, vol. 62, no. 3, 2014, pp. 595-601.

S. Lim, “Shared interaction system implementation for the social media art,” Journal of Digital Design, vol. 15, no. 4, 2012, pp. 209-216.