Ice melting simulation with water flow handling

In this paper, we propose a new approach based on a particle-based model for ice melting simulation. Each particle has an attribute called virtual water. The amount of the virtual water of an ice particle indicates the amount of water surrounding the ice particle. The transfer of the virtual water is performed between the exterior ice particles so as to simulate the thin layer of water flow on the surface. Our approach also handles the transition between the virtual water and the water particles. We compute the isosurface of a density field defined by the ice particles and the virtual water. A simple ray tracing method is adopted for rendering the objects. We report the experimental results of several ice melting simulations with water flow and water drops.

[1]  Dinesh Manocha,et al.  Fast BVH Construction on GPUs , 2009, Comput. Graph. Forum.

[2]  Tomoyuki Nishita,et al.  GPU‐based Fast Ray Casting for a Large Number of Metaballs , 2008, Comput. Graph. Forum.

[3]  Ronald Fedkiw,et al.  Practical animation of liquids , 2001, SIGGRAPH.

[4]  Carlos MADRAZO,et al.  Air Bubbles in Ice by Simulating Freezing Phenomenon , 2009 .

[5]  Ronald Fedkiw,et al.  Melting and burning solids into liquids and gases , 2006, IEEE Transactions on Visualization and Computer Graphics.

[6]  Issei Fujishiro,et al.  Volume Graphics Modeling of Ice Thawing , 2001, VG.

[7]  Klaus Mueller,et al.  Melting and flowing in multiphase environment , 2006, Comput. Graph..

[8]  Renato Pajarola,et al.  A unified particle model for fluid–solid interactions , 2007, Comput. Animat. Virtual Worlds.

[9]  S. Osher,et al.  A Simple Level Set Method for Solving Stefan Problems , 1997, Journal of Computational Physics.

[10]  Daniel Cohen-Or,et al.  Volume graphics , 1993, Computer.

[11]  Jean-Michel Dischler,et al.  Simulating Fluid-Solid Interaction , 2003, Graphics Interface.

[12]  Tomoyuki Nishita,et al.  A Method for Displaying Metaballs by using Bézier Clipping , 1994, Comput. Graph. Forum.

[13]  Philippe Beaudoin,et al.  Particle-based viscoelastic fluid simulation , 2005, SCA '05.

[14]  Kenjiro T. Miura,et al.  Animation of ice melting phenomenon based on thermodynamics with thermal radiation , 2004, GRAPHITE '07.

[15]  Greg Turk,et al.  Simplification and Repair of Polygonal Models Using Volumetric Techniques , 2003, IEEE Trans. Vis. Comput. Graph..

[16]  Kei Iwasaki,et al.  Fast Particle‐based Visual Simulation of Ice Melting , 2010, Comput. Graph. Forum.

[17]  John C. Platt,et al.  Heating and melting deformable models , 1991, Comput. Animat. Virtual Worlds.

[18]  Greg Turk,et al.  Animating Corrosion and Erosion , 2007, NPH.