VIEWPOINT ENTROPY-DRIVEN SIMPLIFICATION METHOD FOR TEXTURED TRIANGLE MESHES
Carlos González, Pascual Castelló, Miguel Chover, Mateu Sbert, Miquel Feixas
2010
Abstract
This paper proposes a viewpoint-driven simplification method for textured triangle meshes. Models used in interactive applications are usually composed of geometric meshes with textures. Thus, textures play an important role in the final aspect of the simplified models. This method considers the texture shape in the error metric. Entropy, a concept from Information Theory, is used in this error metric. We show in the experiments that this method produces simplifications that preserve textures better than the methods that do not take them into account. Therefore, great distortions when applying the textures are avoided.
References
- Castelló P., Sbert M., Chover M., Feixas M., 2007. Viewpoint entropy-driven simplification. 15th International Conference in Central Europe on Computer Graphics, Visualization and Computer Vision (WSCG 2007), volume 2, 249-256.
- Castelló P., Sbert M., Chover M., Feixas M., 2008. Viewpoint-based simplification using f-divergences. Information Sciences, 178 (11), 2375-2388.
- Chen C.-C., Chuang J.-H., 2006. Texture Adaptation for Progressive Meshes. Eurographics06-Geometry Compression and Decompression.
- Cohen J., Olano M., Manocha D., 1998. AppearancePreserving Simplification. Proceedings of ACM. SIGGRAPH 98. 115-122.
- Felzenszwalb P. F., Huttenlocher D. P., 2004. Efficient Graph-Based Image Segmentation. International Journal of Computer Vision, Volume 59, Number 2.
- Garland M., Heckbert P. S., 1997. Surface Simplification Using Quadric Error Metrics. Computer Graphics (SIGGRAPH 97 Proceedings), 209-218.
- Garland M., Heckbert P. S., 1998. Simplifying Surfaces with Color and Texture Using Quadric Error Metrics. Ninth IEEE Visualization 1998 (VIS'98), 264.
- Garland M., Zhou Y., 2005. Quadric-based Simplification in any Dimension. ACM Transactions on Graphics, 24(2). Draft preprint available as Tech Report UIUCDCS-R-2004-2450.
- González C., Castelló P., Chover M., 2007. A texturebased Metric Extension for Simplification Methods. 2nd International Conference on Computer Graphics Theory and Applications (GRAPP 2007), 69-76.
- González C., Gumbau J., Chover M., Castelló P., 2008. Mesh simplification for interactive applications. In WSCG'08 Proceedings, 87-94.
- González C, Gumbau J, Chover M, Ramos F, Quirós R., 2009. User-assisted simplification method for triangle meshes preserving boundaries. ComputerAided Design 2009, Elsevier;41(12):1095-1106.
- Hoppe H., 1996. Progressive Meshes. Computer Graphics (Proc. Siggraph 96), vol. 30, ACM Press, New York, 99-108.
- Hoppe H., 1999. New Quadric Metric for Simplifying Meshes with Appearance Attributes, Proc. IEEE Visualization 99, IEEE CS Press, Los Alamitos, Calif., pp. 59-66.
- Kho Y, Garland M., 2003. User-guided simplification. Proceedings of the 2003 symposium on Interactive 3D graphics, 123-126
- Lee C.H., Varshney A., Jacobs D.W., 2005. Mesh saliency. ACM Trans. Graph. 24, 3, pp. 659-666.
- Lindstrom P., Turk G., 2000. Image-driven simplification. ACM TOG 19, 3, 204-241.
- Luebke D.P., 2001. A developer's survey of polygonal simplification algorithms. IEEE Computer Graphics and Applications 2001;21(3):24-35.
- Luebke D.P., Hallen B., 2001. Perceptually-driven simplification for interactive rendering. Proc. of the 12th Eurographics Workshop on Rendering Techniques (London, UK), 223-234.
- Sander P., Snyder J. Gortler S., Hoppe H., 2001.Texture mapping progressive meshes. Proc. SIGGRAPH, 409-416.
- Shannon C. E., 1948. A Mathematical Theory of Communication. CSLI Publications.
- Shao Y., Liu B., Zhang H., 2004. Geometry and texture based simplification of 3D meshes. In ICSP'04 Proceedings, 1310-1313.
- Vázquez P. P., Feixas M., Sbert M., Heidrich W., 2001. Viewpoint selection using viewpoint entropy. In VMV 7801: Proceedings of the Vision Modeling and Visualization Conference, 273-280.
- Williams N., Luebke D., Cohen J.D., Kelley M., Schubert B., 2003. Perceptually guided simplification of lit, textured meshes. Proc. of the 2003 symposium on Interactive 3D graphics (New York, NY, USA), ACM Press, 113-121.
- Xu A., Sun S., Xu K., 2005. Texture Information Driven Triangle Mesh Simplification. Computer Graphics and Imaging, 43-48.
- Zhang E., Turk G., 2002. Visibility-guided simplification. Proc. of IEEE Visualization 2002, vol.31, 267-274.
Paper Citation
in Harvard Style
González C., Castelló P., Chover M., Sbert M. and Feixas M. (2010). VIEWPOINT ENTROPY-DRIVEN SIMPLIFICATION METHOD FOR TEXTURED TRIANGLE MESHES . In Proceedings of the International Conference on Computer Graphics Theory and Applications - Volume 1: GRAPP, (VISIGRAPP 2010) ISBN 978-989-674-026-9, pages 30-37. DOI: 10.5220/0002820800300037
in Bibtex Style
@conference{grapp10,
author={Carlos González and Pascual Castelló and Miguel Chover and Mateu Sbert and Miquel Feixas},
title={VIEWPOINT ENTROPY-DRIVEN SIMPLIFICATION METHOD FOR TEXTURED TRIANGLE MESHES},
booktitle={Proceedings of the International Conference on Computer Graphics Theory and Applications - Volume 1: GRAPP, (VISIGRAPP 2010)},
year={2010},
pages={30-37},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0002820800300037},
isbn={978-989-674-026-9},
}
in EndNote Style
TY - CONF
JO - Proceedings of the International Conference on Computer Graphics Theory and Applications - Volume 1: GRAPP, (VISIGRAPP 2010)
TI - VIEWPOINT ENTROPY-DRIVEN SIMPLIFICATION METHOD FOR TEXTURED TRIANGLE MESHES
SN - 978-989-674-026-9
AU - González C.
AU - Castelló P.
AU - Chover M.
AU - Sbert M.
AU - Feixas M.
PY - 2010
SP - 30
EP - 37
DO - 10.5220/0002820800300037