Mitchell, D.P.: Robust ray intersection with interval arithmetic. Majercik, A., Crassin, C., Shirley, P., McGuire, M.: A ray-box intersection algorithm and efficient dynamic voxel rendering. Lorensen, W.E., Cline, H.E.: Marching cubes:ACM, : A high resolution 3d surface construction algorithm. Lopes, A., Brodlie, K.: Improving the robustness and accuracy of the marching cubes algorithm for isosurfacing. In: Proceedings of the IEEE/CVF Winter Conference on Applications of Computer Vision, pp. Li,W., Zhao, S., Xiao, X., Hahn, J.: Robust template-based non-rigid motion tracking using local coordinate regularization. In: 2019 IEEE Winter Conference on Applications of Computer Vision (WACV), pp. Li, W., Xiao, X., Hahn, J.: 3d reconstruction and texture optimization using a sparse set of rgb-d cameras. Lewiner, T., Lopes, H., Vieira, A.W., Tavares, G.: Efficient implementation of marching cubes’ cases with topological guarantees. In: ACM Transactions on Graphics (TOG), vol. Lefebvre, S., Hoppe, H.: Perfect spatial hashing. Laine, S., Karras, T.: Efficient sparse voxel octrees. Laine, S., Karras, T.: Efficient Sparse Voxel Octrees-analysis, Extensions, and Implementation, vol. Kchapelier: Cellular Automata Voxel Shader (2018). In: ACM SIGGRAPH Computer Graphics, vol. 23, pp. Kalra, D., Barr, A.H.: Guaranteed ray intersections with implicit surfaces. In: Proceedings of the 29th Annual Conference on Computer Graphics and Interactive Techniques, pp. Ju, T., Losasso, F., Schaefer, S., Warren, J.: Dual contouring of hermite data.
In: Proceedings of the Twelfth International Conference on Tangible, Embedded, and Embodied Interaction, pp. Jackson, J.C.: Marching cubes made tangible. Hart, J.C.: Sphere tracing: a geometric method for the antialiased ray tracing of implicit surfaces. Gumin, M.: Wave Function Collapse (2018). IEEE Computer Society (1995)įujishiro, I., Maeda, Y., Sato, H., Takeshima, Y.: Volumetric data exploration using interval volume. In: Proceedings of the 6th Conference on Visualization’95, p. Springer (1985)įujishiro, I., Maeda, Y., Sato, H.: Interval volume: a solid fitting technique for volumetric data display and analysis. ACM (1992)įrisken, S.F., Perry, R.N.: Simple and efficient traversal methods for quadtrees and octrees. 15(1), 150–159 (2009)ĭuff, T.: Interval arithmetic recursive subdivision for implicit functions and constructive solid geometry. Algorithms 37(1–4), 147–158 (2004)ĭietrich, C.A., Scheidegger, C.E., Schreiner, J., Comba, J.L., Nedel, L.P., Silva, C.T.: Edge transformations for improving mesh quality of marching cubes. (CSUR) 47(4), 60 (2015)ĭe Figueiredo, L.H., Stolfi, J.: Affine arithmetic: concepts and applications. ACM (2009)ĭe Araújo, B.R., Lopes, D.S., Jepp, P., Jorge, J.A., Wyvill, B.: A survey on implicit surface polygonization. In: Proceedings of the 2009 Symposium on Interactive 3D Graphics and Games, pp. 11(1), 27–38 (1994)Ĭrassin, C., Neyret, F., Lefebvre, S., Eisemann, E.: Gigavoxels: Ray-guided streaming for efficient and detailed voxel rendering. Citeseer (2004)Ĭohen, D., Sheffer, Z.: Proximity clouds-an acceleration technique for 3d grid traversal.
10(2), 130–141 (2004)Ĭhernyaev, E.: Marching Cubes 33: Construction of Topologically Correct Isosurfaces (1995)Ĭhristensen, P.H., Batali, D.: An irradiance atlas for global illumination in complex production scenes. (TOG) 21(3), 785–790 (2002)īhaniramka, P., Wenger, R., Crawfis, R.: Isosurface construction in any dimension using convex hulls. Eurographics 87, 10 (1987)īarber, C.B., Dobkin, D.P., Huhdanpaa, H.: The quickhull algorithm for convex hulls. Amanatides, J., Woo, A.: A fast voxel traversal algorithm for ray tracing.
0 kommentar(er)
