ABSTRACT
This article presents an easy to use mobile application which allows users to create 3D digital copies of their interested objects anywhere and anytime. An advanced 3-sweep modeling technique is developed to construct 3D primitives not only from generalized cylinder and cuboid, but also objects with symmetrical or non-uniformly scaled profiles. In addition, our system supports the texture and structure refinement which combine results created from multiple source images. The constructed 3D model will be the combination of our 3D primitives. The combined result can preserve more features which may not be seen from a single photo.
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- Tao Chen, Zhe Zhu, Ariel Shamir, Shi-Min Hu, and Daniel Cohen-Or. 2013. 3-sweep: Extracting editable objects from a single photo. ACM Transactions on Graphics (TOG) 32, 6 (2013), 195.Google ScholarDigital Library
- Amélie Fondevilla, Adrien Bousseau, Damien Rohmer, Stefanie Hahmann, and Marie-Paule Cani. 2017. Patterns from Photograph: Reverse-Engineering Developable Products. Computers & Graphics (2017).Google Scholar
- Takeo Igarashi and Dennis Cosgrove. 2001. Adaptive unwrapping for interactive texture painting. In Proceedings of the 2001 symposium on Interactive 3D graphics. ACM, 209--216.Google ScholarDigital Library
- Urs Ramer. 1972. An iterative procedure for the polygonal approximation of plane curves. Computer graphics and image processing 1, 3 (1972), 244--256.Google Scholar
- Carsten Rother, Vladimir Kolmogorov, and Andrew Blake. 2004. Grabcut: Interactive foreground extraction using iterated graph cuts. In ACM transactions on graphics (TOG), Vol. 23. ACM, 309--314.Google ScholarDigital Library
- Alex Shtof, Alexander Agathos, Yotam Gingold, Ariel Shamir, and Daniel Cohen-Or. 2013. Geosemantic Snapping for Sketch-Based Modeling. In Computer graphics forum, Vol. 32. Wiley Online Library, 245--253.Google Scholar
- Noah Snavely, Steven M Seitz, and Richard Szeliski. 2006. Photo tourism: exploring photo collections in 3D. In ACM transactions on graphics (TOG), Vol. 25. ACM, 835--846.Google Scholar
- Satoshi Suzuki et al. 1985. Topological structural analysis of digitized binary images by border following. Computer vision, graphics, and image processing 30, 1 (1985), 32--46.Google Scholar
Index Terms
- Modeling go: a mobile sketch-based modeling system for extracting objects
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