publication . Conference object . Preprint . 2011

Mobile augmented reality applications

David Prochazka; Stencl, M.; Popelka, O.; Stastny, J.;
Open Access
  • Published: 28 Jun 2011
Augmented reality have undergone considerable improvement in past years. Many special techniques and hardware devices were developed, but the crucial breakthrough came with the spread of intelligent mobile phones. This enabled mass spread of augmented reality applications. However mobile devices have limited hardware capabilities, which narrows down the methods usable for scene analysis. In this article we propose an augmented reality application which is using cloud computing to enable using of more complex computational methods such as neural networks. Our goal is to create an affordable augmented reality application suitable which will help car designers in b...
free text keywords: Computer Science - Computer Vision and Pattern Recognition, H.5.1
20 references, page 1 of 2

[1] Weiser, Mark. Some computer science issues in ubiquitous computing. Communications of the ACM 36, 7, pp. 75-84. ACM, 1993.

[2] Billinghurst, Mark and Kato, Hirokazu. Collaborative augmented reality. Communications of the ACM 45, 7, pp. 64-70. ACM, 2002.

[3] Kroeker, Kirk L. Mainstreaming augmented reality. Communications of the ACM 53, 7, pp. 19-21. ACM, 2010.

[4] Bimber, O. and Raskar, R. Spatial Augmented Reality: Merging Real and Virtual Worlds, A.K. Peters, Natick, MA, 2005.

[5] Stastny, J. Prochazka, D. Koubek, T. Landa, J.: Augmented reality usage for prototyping speed up. Acta univ. agric. et silvic. Mendel. Brun., 2011, LIX, No. 2.

[6] Ong, S.K. Nee, A.Y.C. and Ong, Soh K.. Virtual Reality and Augmented Reality Applications in Manufacturing. pp. 392, Springer, 2004.

[7] Hugues, Olivier Cieutat, Jean-Marc and Guitton, Pascal. An experimental augmented reality platform for assisted maritime navigation. In Proceedings of the 1st Augmented Human International Conference (AH '10). ACM, New York, NY, USA, 2010.

[8] Kato, H. Tachibana, K. Billinghurst, M. and Grafe, M. A registration method based on texture tracking using ARToolKit, In Augmented Reality Toolkit Workshop, pp. 77- 85, 2003.

[9] Wagner, Daniel Mulloni, Alessandro and Schmalstieg, Dieter. Real-Time Detection and Tracking for Augmented Reality on Mobile Phones, IEEE Transactions on Visualization and Computer Graphics, vol. 16, no. 3, pp. 355-368. IEEE, 2010.

[10] Seo, Byung-Kuk Kim, Kangsoo Park, Jungsik and Park, Jong-Il. A tracking framework for augmented reality tours on cultural heritage sites. In Proceedings of the 9th ACM SIGGRAPH Conference on VirtualReality Continuum and its Applications in Industry (VRCAI '10), pp. 169-174. ACM, New York, NY, USA, 2010.

[11] Vasilev, Julian. The role of DBMS in Analytical Processes of the Logistics of Stocks Processes, International Journal "Information Theories & Applications", vol. 15, pp. 167-170. FOI Bulgaria, 2008. [OpenAIRE]

[12] Ma, Xiaohu Shi, Gang and Tian, Hongbo. Adaptive threshold algorithm for multi-marker augmented reality system. In Proceedings of the 9th ACM SIGGRAPH Conference on Virtual-Reality Continuum and its Applications in Industry (VRCAI '10), pp. 71-74. ACM, New York, 2010.

[13] Bradski, Gary and Kaehler, Adrian. Learning OpenCV: Computer Vision with the OpenCV Library, pp. 576. O'Reilly Media, 2003.

[14] Skorpil, V. and Stastny, J. Comparison Methods for Object Recognition. In Proceedings of the 13th WSEAS International Conference on Systems. Rhodos, GREECE, 2009. pp. 607-610. ISBN 978-960-474-097-0.

[15] Skorpil, V. and Stastny, J. Back-Propagation and K-Means Algorithms Comparison. In 2006 8th International Conference on SIGNAL PROCESSING Proceedings. Guilin, CHINA, IEEE Press, 2006. pp. 1871- 1874. ISBN 978-0-7803-9736-1.

20 references, page 1 of 2
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