A real-time cloud modeling, rendering, and animation system

Modeling and animating complex volumetric natural phenomena, such as clouds, is a difficult task. Most systems are difficult to use, require adjustment of numerous, complex parameters, and are non-interactive. Therefore, we have developed an intuitive, interactive system to artistically model, animate, and render visually convincing volumetric clouds using modern consumer graphics hardware. Our natural, high-level interface models volumetric clouds through the use of qualitative cloud attributes. The animation of the implicit skeletal structures and independent transformation of octaves of noise emulate various environmental conditions. The resulting interactive design, rendering, and animation system produces perceptually convincing volumetric cloud models that can be used in interactive systems or exported for higher quality offline rendering.

[1]  Anselmo Lastra,et al.  Real‐Time Cloud Rendering , 2001, Comput. Graph. Forum.

[2]  William J. Dally,et al.  Polygon rendering on a stream architecture , 2000, Workshop on Graphics Hardware.

[3]  Geoff Wyvill,et al.  Data structure forsoft objects , 1986, The Visual Computer.

[4]  Jos Stam,et al.  Interacting with smoke and fire in real time , 2000, CACM.

[5]  R. Scorer,et al.  Clouds of the world , 1972 .

[6]  Jos Stam,et al.  Multiple Scattering as a Diffusion Process , 1995, Rendering Techniques.

[7]  Pantelis Elinas,et al.  Real-time Rendering of 3D Clouds , 2000, J. Graphics, GPU, & Game Tools.

[8]  L. R. Koenig,et al.  A Short Course in Cloud Physics , 1979 .

[9]  Aaas News,et al.  Book Reviews , 1893, Buffalo Medical and Surgical Journal.

[10]  David S. Ebert,et al.  Interactive translucent volume rendering and procedural modeling , 2002, IEEE Visualization, 2002. VIS 2002..

[11]  Brian Cabral,et al.  Accelerated volume rendering and tomographic reconstruction using texture mapping hardware , 1994, VVS '94.

[12]  David S. Ebert,et al.  Texturing and Modeling: A Procedural Approach , 1994 .

[13]  Ken Perlin,et al.  Improving noise , 2002, SIGGRAPH.

[14]  Arnauld Lamorlette,et al.  Structural modeling of flames for a production environment , 2002, SIGGRAPH.

[15]  Ken Perlin,et al.  [Computer Graphics]: Three-Dimensional Graphics and Realism , 2022 .

[16]  D. Moreau,et al.  Flow Noise , 1958, Nature.

[17]  R. Voss Random Fractal Forgeries , 1985 .

[18]  Kazufumi Kaneda,et al.  A simple, efficient method for realistic animation of clouds , 2000, SIGGRAPH.

[19]  James T. Kajiya,et al.  Ray tracing volume densities , 1984, SIGGRAPH.

[20]  Fabrice Neyret,et al.  Qualitative Simulation of Convective Cloud Formation and Evolution , 1997, Computer Animation and Simulation.

[21]  William A. Quayle A book of clouds , 1925 .

[22]  FosterNick,et al.  Structural modeling of flames for a production environment , 2002 .

[23]  Geoffrey Y. Gardner,et al.  Visual simulation of clouds , 1985, SIGGRAPH.

[24]  Yoshinori Dobashi,et al.  Modeling and rendering methods of clouds , 1999, Proceedings. Seventh Pacific Conference on Computer Graphics and Applications (Cat. No.PR00293).

[25]  Nelson L. Max,et al.  Optical Models for Direct Volume Rendering , 1995, IEEE Trans. Vis. Comput. Graph..

[26]  Pantelis Elinas,et al.  Real-time rendering of 3 D clouds , .

[27]  James F. Blinn,et al.  Light reflection functions for simulation of clouds and dusty surfaces , 1982, SIGGRAPH.

[28]  Hideo Yamashita,et al.  Modeling of clouds from satellite images using metaballs , 1998, Proceedings Pacific Graphics '98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No.98EX208).