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A Proposal of a Mobile Augmented Reality Service Model based on Street Data, and its Implementation
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A Proposal of a Mobile Augmented Reality Service Model based on Street Data, and its Implementation
Lee, Jeong Hwan; Lee, Jun; Kwon, Yong Jin;
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The popularity of smart devices and Location Based Services (LBSes) is increasing in part due to users demand for personalized information associated with their location. These services provide intuitive and realistic information by adopting Augmented Reality (AR) technology. This technology utilizes various sensors embedded in the mobile devices. However, these services have inherent problems due to the devices small screen size and the complexity of the real world environment; overlapping content on a small screen and placing icons without considering the user's possible movement. In order to solve these problems, this paper proposes a Mobile Augmented Reality Model with the application of Street Data. The model consists of two layers: "Real Space" and "Information Space". In the model, a user creates a query by scanning the nearby street with a camera in real space and searches accessible content along the street through the use of the information space. Furthermore, the results are placed on both sides of the street to solve the issue of Overlapping. Also, the proposed model is implemented for region "Aenigol", and the efficiency and usefulness of the model are verified.
Mobile Augmented Reality;Location Based Services;Street Data;
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Spatial Information Research, 2016. vol.24. 3, pp.303-311 crossref(new window)
Seo, K. S; Lee, R; Jang, Y. H; Kwon, Y. J. 2010, Design and Implementation of Real-Time Support System for Purchasing Activities Based on Ambient Service Model, Journal of Korea Spatial Information Society, 18(2):67-76.

Shin, J. J; Seo, K. S; Jang, Y. H; Kwon, Y. J. 2010, An Integrated Region-Related Information Searching System applying of Map Interface and Knowledge Processing, Journal of Korea Spatial Information Society, 18(4):129-140.

Choe, H. O. 2003, LBS, Location-Based Services, Telecommunications Technology Association Journal, 86:59-69.

Hwang, J. R; Kim, T. H; Choi, H. S. 2012, A Study on the Strategies for Promoting Spatial Information Service for Mobile Environment, Journal of Geographic Information System Association of Korea, 20(4):57-67.

Lee, J. H; Jang, Y. H; Kwon, Y. J. 2013, An Efficient Location Based Service based on Mobile Augmented Reality applying Street Data extracted from Digital Map, Journal of Korea Spatial Information Society, 21(4):63-70.

Azuma, R. T. 1997, A Survey of Augmented Reality, Teleoperators and Virtual Environments, 6(4):355-385. crossref(new window)

Heras-Quiros, P; Roman-Lopez, R; Calvo-Palomino, R; Gato, J; GatoMobile, J. F. 2010,Augmented Reality browsers should allow labeling objects, A Position Paper for the AugmentedReality on the Web W3C Workshop, May 30.


Zhou, F, Duh, H. B.-L, Billinghurst, M. 2008, Trends in augmented reality tracking, interaction and display : A review of ten years of ISMAR, IEEE/ACM Int. Symposium on Mixed and Augmented Reality, pp.193-202.


Jeon, J. H; Lee, S. Y. 2011, Standardization Trends of Mobile Augmented Reality Technology, Electronics and Telecommunications Trends, 26(4):33-45.

Kim, B. H. 2011, Ontology-based Points of Interest Data Model for Mobile Augmented Reality, Korea Society of IT Services Journal, 25(4):269-280.


National Geographic Information Institute, http://

Dijkstra, E. W. 1959, A note on two problems in connexion with graphs, Numer Math.1: 269-271. crossref(new window)