References
- Alliez, P.; Cohen, S.; Devillers, O.; Levy, B.; Desbrun, M.: Anisotropic Polygonal Remeshing, Proceedings of ACM Siggraph, 3(22), 2003, 485–493.
- Bernd, H.: A Data Reduction Scheme for Triangulated Surfaces, Computer Aided Geometric Design, 11(2), 1994, 197–214. doi: 10.1016/0167-8396(94)90032-9
- Castello, P.; Sbert, M.; Chover, M.; Feixas, M.: Viewpoint Entropy-driven Simplification, Proceedings of WSCG 2007, 249–256.
- Cignoni, P.; Rocchini, C.; Scopigno, R.: Metro: Measuring Error on Simplified Surfaces, Computer Graphics Forum, 17(2), 1998, 167–174. doi: 10.1111/1467-8659.00236
- Cohen, J.; Olano, M.; Manocha, D.: Appearance Preserving Simplification, Proceedings of SIGGRAPH’98, 32, 1998, 115–122.
- Cohen, J.; Varshney, A.; Manocha, D.: Simplification Envelopes, Computer Graphics (SIGGRAPH’ 96 Proceedings), 1996, 119–128.
- Cover, T. M.; Thomas, J. A.: Elements of Information Theory, Wiley Series in Telecommunications, 1991. doi: 10.1002/0471200611
- Garland, M.; Heckbert, P.: Surface Simplification Using Quadric Error Metrics, Computer Graphics (SIGGRAPH’ 97 Proceedings), 1997, 209–216.
- Hamann, B.: Curvature Approximation for Triangulated Surfaces, Computing Supple, 13(8), 1993, 139–153.
- Hoppe, H.: Progressive Meshes, In SIGGRAPH’ 96 Proceedings, 1996, 99–108.
- Hoppe, H.; DeRose, T.; Duchamp, T.; McDonald, J; Stuetzle, W.: Mesh Optimization, In SIGGRAPH’ 93 Proceedings, 1993, 19–26.
- Lee, C. H.; Varshney, A.; Jacobs, D.: Mesh Saliency, ACM Trans. Graph. 24, 3, 2005, 659–666.
- Lindstrom, P.; Turk, G.: Image-driven simplification, ACM TOG 19, 3, 2000, 204–241.
- Luebke, D.; Erikson, C.: View-dependent Simplification of Arbitrary Polygonal Environments, In SIGGRAPH’97 Proceedings, 1997.
- Luebke, D.; Hallen, B.: Perceptually-driven Simplification for Interactive Rendering, Proceedings of the 12th Eurographics Workshop on Rendering Techniques, 2001, 223–234.
- Meyer, M.; Desbrun, M.; Schoroder, P.; Barr, A. H.: Discrete Differential-geometry Operators for Triangulated 2-manifolds, In Visualization and MathematicsIII (Proceedings of VisMath , Springer Verlag, Berlin, Germany, 35–54.
- Rossignac, J.; Borrel, P.: Multi-resolution 3D Approximations for Rendering Complex Scenes, Modeling in Computer Graphics: Methods and Applications, 1993, 455–465.
- Schroeder, W. J.; Zarge, J. A.; Lorensen, W. E.: Decimation of Triangle Meshes, Computer Graphics (SIGGRAPH’ 92 Proceedings), 26(2), 1992, 65–70.
- Soucy, M.; Laurendeau, D.: Multi resolution Surface Modeling based on Hierarchical Triangulation, Computer Vision and Image Understanding, 63(1), 1996, 1–14. doi: 10.1006/cviu.1996.0001
- Wei, J.; Lou, Y.: Feature Preserving Mesh Simplification using Feature Sensitive Metric, Journal of Computer Science and Technology, 25(3), 2010, 595–605. doi: 10.1007/s11390-010-9348-7
- Wu, J. H.; Hu, S. M.; Tai, C. L.; Sun, J. G.: An Effective Feature-preserving Mesh Simplification Scheme Based on Face Constriction, Proceedings of Pacific Graphics, 2001, 12–21.
- Wu, Y.; He, Y.; Cai, H.: QEM-based Mesh Simplification with Global Geometry Features Preserved, Computer Graphics (SIGGRAPH’ 04 Proceedings), 2004, 50–57.
- Zhang, E.; Turk, G.: Visibility-guided Simplification, Proceedings of IEEE Visualization, 31, 2002, 267–274.