Abstract
This paper presents a hardware-accelerated approach for shadow computation in scenes containing both complex volumetric objects and polyhedral models. Our system is the first hardware accelerated complete implementation of deep shadow maps, which unifies the computation of volumetric and geometric shadows. Up to now such unified computation was limited to software-only rendering . Previous hardware accelerated techniques can handle only geometric or only volumetric scenes - both resulting in the loss of important properties of the original concept. Our approach supports interactive rendering of polyhedrally bounded volumetric objects on the GPU based on ray casting. The ray casting can be conveniently used for both the shadow map computation and the rendering. We show how anti-aliased high-quality shadows are feasible in scenes composed of multiple overlapping translucent objects, and how sparse scenes can be handled efficiently using clustered deep shadow maps.
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References
Lokovic, T., Veach, E.: Deep shadow maps. In: SIGGRAPH 2000: Proceedings of the 27th Annual Conference on Computer Graphics and Interactive Techniques, pp. 385–392. ACM Press/Addison-Wesley Publishing Co (2000)
Hadwiger, M., Kratz, A., et al.: GPU-accelerated deep shadow maps for direct volume rendering. In: GH 2006: Proc. of the 21th SIGGRAPH/EUROGRAPHICS Symposium on Graphics Hardware, pp. 49–52. ACM (2006)
Nickolls, J., Buck, I., Garland, M.: Scalable parallel programming with CUDA. ACM Queue 6, 40–53 (2008)
Crow, F.C.: Shadow algorithms for computer graphics. In: SIGGRAPH 1977: Proceedings of the 4th Annual Conference on Computer Graphics and Interactive Techniques, pp. 242–248. ACM (1977)
Williams, L.: Casting curved shadows on curved surfaces. In: SIGGRAPH 1978: Proceedings of the 5th Annual Conference on Computer Graphics and Interactive Techniques, pp. 270–274. ACM (1978)
Stamminger, M., Drettakis, G.: Perspective shadow maps. In: SIGGRAPH 2002: Proceedings of the 29th Annual Conference on Computer Graphics and Interactive Techniques, pp. 557–562. ACM (2002)
Wimmer, M., Scherzer, D., Purgathofer, W.: Light space perspective shadow maps. In: Keller, A., Jensen, H.W. (eds.) Rendering Techniques 2004 (Proceedings Eurographics Symposium on Rendering), Eurographics, pp. 143–151 (2004)
Lloyd, D.B.: Logarithmic perspective shadow maps. PhD thesis, Chapel Hill, NC, USA (2007), Adviser-Manocha, Dinesh
Lefohn, A., Sengupta, S., Owens, J.: Resolution-matched shadow maps. ACM Trans. Graph. 26, 20 (2007)
Aila, T., Laine, S.: Alias-free shadow maps. In: Keller, A., Jensen, H.W. (eds.) Rendering Techniques, Eurographics Association, pp. 161–166 (2004)
Dimitrov, R.: Cascaded Shadow Maps. NVIDIA (2007)
Zhang, F., Sun, H., Xu, L., Lun, L.K.: Parallel-split shadow maps for large-scale virtual environments. In: VRCIA 2006: Proceedings of the 2006 ACM International Conference on Virtual Reality Continuum and its Applications, pp. 311–318. ACM (2006)
Donnelly, W., Lauritzen, A.: Variance shadow maps. In: I3D 2006: Proceedings of the 2006 Symposium on Interactive 3D Graphics and Games, pp. 161–165. ACM (2006)
Lauritzen, A., McCool, M.: Layered variance shadow maps. In: GI 2008: Proceedings of Graphics Interface 2008, pp. 139–146. Canad. Information Processing Society (2008)
Annen, T., Mertens, T., Bekaert, P., Seidel, H.P., Kautz, J.: Convolution shadow maps. In: Rendering Techniques 2007: Eurographics Symposium on Rendering, Grenoble, France, Eurographics, pp. 51–60 (2007)
McGuire, M., Enderton, E.: Colored stochastic shadow maps. In: Proceedings of the ACM Symposium on Interactive 3D Graphics and Games (2011)
Rezk-Salama, C., Ropinski, T., Hadwiger, M., Ljung, P.: Advanced Illumination Techniques for GPU-Based Raycasting. ACM SIGGRAPH Course Notes (2009)
Kniss, J., Premoze, S., Hansen, C., Ebert, D.: Interactive translucent volume rendering and procedural modeling. In: VIS 2002: Proceedings of the Conference on Visualization 2002, pp. 109–116. IEEE Computer Society, Washington (2002)
Behrens, U., Ratering, R.: Adding shadows to a texture-based volume renderer. In: VVS 1998: Proceedings of the 1998 IEEE Symposium on Volume Visualization, pp. 39–46. ACM, New York (1998)
Ropinski, T., Döring, C., Rezk-Salama, C.: Advanced Volume Illumination with Unconstrained Light Source Positioning. IEEE Comp. Graph. & Applications 30, 29–41 (2010)
Sundén, E., Ynnerman, A., Ropinski, T.: Image plane sweep volume illumination. IEEE Transactions on Visualization and Computer Graphics 17, 2125–2134 (2011)
Salama, C.R.: Gpu-based monte-carlo volume raycasting. In: Proceedings of the 15th Pacific Conference on Computer Graphics and Applications, pp. 411–414. IEEE Computer Society (2007)
Kim, T.Y., Neumann, U.: Opacity shadow maps. In: Proceedings of the 12th Eurographics Workshop on Rendering Techniques, pp. 177–182. Springer (2001)
Mertens, T., Kautz, J., Bekaert, P., Van Reeth, F.: A self-shadow algorithm for dynamic hair using density clustering. In: SIGGRAPH 2004: ACM SIGGRAPH 2004 Sketches, p. 44. ACM (2004)
Sintorn, E., Assarsson, U.: Real-time approximate sorting for self shadowing and transparency in hair rendering. In: I3D 2008: Proceedings of the 2008 Symposium on Interactive 3D Graphics and Games, pp. 157–162. ACM (2008)
Yuksel, C., Keyser, J.: Deep opacity maps. In: Computer Graphics Forum (Proceedings of EUROGRAPHICS 2008), vol. 27 (2008)
Sintorn, E., Assarsson, U.: Hair self shadowing and transparency depth ordering using occupancy maps. In: I3D 2009: Proceedings of the 2009 Symposium on Interactive 3D Graphics and Games, pp. 67–74. ACM (2009)
Salvi, M., Vidimče, K., Lauritzen, A., Lefohn, A.: Adaptive volumetric shadow maps. In: Eurographics Symposium on Rendering, pp. 1289–1296 (2010)
Kainz, B., Grabner, M., Bornik, A., Hauswiesner, S., Muehl, J., Schmalstieg, D.: Efficient ray casting of volumetric datasets with polyhedral boundaries on manycore gpus. In: SIGGRAPH Asia 2009: ACM SIGGRAPH Asia 2009 papers. ACM, New York (2009)
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Bornik, A., Knecht, W., Hadwiger, M., Schmalstieg, D. (2012). Clustered Deep Shadow Maps for Integrated Polyhedral and Volume Rendering. In: Bebis, G., et al. Advances in Visual Computing. ISVC 2012. Lecture Notes in Computer Science, vol 7431. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-33179-4_31
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DOI: https://doi.org/10.1007/978-3-642-33179-4_31
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