T. Probst, M. Teschner, Monolithic Friction and Contact Handling for Rigid Bodies and Fluids Using SPH. Computer Graphics Forum, 2023. DOI: 10.1111/cgf.14727
Monolithic Friction and Contact Handling for Rigid Bodies and Fluids using SPHCGFreiburg2023-02-14 | https://cg.informatik.uni-freiburg.de/
T. Probst, M. Teschner, Monolithic Friction and Contact Handling for Rigid Bodies and Fluids Using SPH. Computer Graphics Forum, 2023. DOI: 10.1111/cgf.14727SPH Snow - ACM SIGGRAPH 2020CGFreiburg2020-05-26 | C. Gissler, A. Henne, S. Band, A. Peer, M. Teschner, An Implicit Compressible SPH Solver for Snow Simulation,
ACM Transactions on Graphics / Proc. ACM SIGGRAPH 2020
https://cg.informatik.uni-freiburg.de/Compressed Neighbour Lists for SPHCGFreiburg2020-02-07 | https://cg.informatik.uni-freiburg.de/
S. Band, C. Gissler, M. Teschner, Compressed Neighbour Lists for SPH, Computer Graphics Forum. DOI: 10.1111/cgf.13890
PreonLab by FIFTY2 Technology GmbH was used for rendering. FIFTY2 Technology GmbH (2019). PreonLab. https://fifty2.eu/Interlinked SPH Pressure Solvers for Strong Fluid-Rigid CouplingCGFreiburg2019-01-25 | https://cg.informatik.uni-freiburg.de/
C. Gissler, A. Peer, S. Band, J. Bender, M. Teschner, Interlinked SPH Pressure Solvers for Strong Fluid-Rigid Coupling, ACM Transactions on Graphics, vol. 38, no. 1, article no. 5, pp. 1-13, Jan. 2019. Presented at ACM SIGGRAPH 2019.
PreonLab by FIFTY2 Technology GmbH was used to render the rising sphere and moored buoys scenes. The valley scene was rendered using Houdini by Side Effects Software. All the other scenes were rendered using the Cycles renderer in Blender by the Blender Online Community.
FIFTY2 Technology GmbH (2019). PreonLab. https://fifty2.eu/ Side Effects Software (2019). Houdini. sidefx.com Blender Online Community (2019). Blender.http://www.blender.orgSimulation meets art (with Studio Claudia Comte)CGFreiburg2018-09-12 | Simulation: A. Peer, M. Teschner, Prescribed Velocity Gradients for Highly Viscous SPH Fluids with Vorticity Diffusion, IEEE TVCG, 2017. https://cg.informatik.uni-freiburg.de/index.htm
Sculpture (Urtijëi / Ortisei): Studio Claudia Comte https://www.claudiacomte.ch/MLS Pressure Extrapolation for the Boundary Handling in Divergence-Free SPHCGFreiburg2018-03-29 | S. Band, C. Gissler, A. Peer, M. Teschner, "MLS Pressure Extrapolation for the Boundary Handling in Divergence-Free SPH," Proc. VRIPHYS, Delft, The Netherlands, pp. 1-9, April 15-16, 2018.
https://cg.informatik.uni-freiburg.de/ https://fifty2.eu/MLS Pressure Extrapolation for the Boundary Handling in Divergence-Free SPHCGFreiburg2018-03-29 | S. Band, C. Gissler, A. Peer, M. Teschner, "MLS Pressure Extrapolation for the Boundary Handling in Divergence-Free SPH," Proc. VRIPHYS, Delft, The Netherlands, pp. 1-9, April 15-16, 2018.
https://cg.informatik.uni-freiburg.de/ https://fifty2.eu/Pressure Boundaries for Implicit Incompressible SPHCGFreiburg2018-03-27 | S. Band, C. Gissler, M. Ihmsen, J. Cornelis, A. Peer, M. Teschner, "Pressure Boundaries for Implicit Incompressible SPH," ACM Transactions on Graphics, vol. 37, no. 2, , article no. 14, pp. 1-11, Feb. 2018.
https://cg.informatik.uni-freiburg.de/ https://www.fifty2.eu/An Optimized Source Term Formulation for Incompressible SPHCGFreiburg2018-03-22 | J. Cornelis, J. Bender, C. Gissler, M. Ihmsen, M. Teschner, "An Optimized Source Term Formulation for Incompressible SPH," The Visual Computer, DOI: 10.1007/s00371-018-1488-8, pp. 1-11, Feb. 2018.
https://fifty2.eu/ https://cg.informatik.uni-freiburg.de/An Implicit SPH Formulation for Incompressible Linearly Elastic SolidsCGFreiburg2018-03-20 | A. Peer, C. Gissler, S. Band, M. Teschner, "An Implicit SPH Formulation for Incompressible Linearly Elastic Solids," Computer Graphics Forum, DOI: 10.1111/cgf.13317, pp. 1-14, Dec. 2017. Presented at Eurographics 2018 in Delft, The Netherlands.
https://cg.informatik.uni-freiburg.de/ https://fifty2.eu/Elastic SPH object interacts with SPH fluidCGFreiburg2018-03-19 | A. Peer, C. Gissler, S. Band, M. Teschner, "An Implicit SPH Formulation for Incompressible Linearly Elastic Solids," Computer Graphics Forum, DOI: 10.1111/cgf.13317, pp. 1-14, Dec. 2017.
https://cg.informatik.uni-freiburg.de/ https://fifty2.eu/Ship under attackCGFreiburg2017-07-06 | A. Peer, M. Teschner, "Prescribed Velocity Gradients for Highly Viscous SPH Fluids with Vorticity Diffusion," TVCG Transactions on Visualization and Computer Graphics, DOI 10.1109/TVCG.2016.2636144, 20
http://cg.informatik.uni-freiburg.de/Moving Least Squares Boundaries for SPH FluidsCGFreiburg2017-04-20 | S. Band, C. Gissler, M. Teschner, "Moving Least Squares Boundaries for SPH Fluids," Proc. VRIPHYS, Lyon, France, pp. 1-8, April 23-24, 2017.
http://cg.informatik.uni-freiburg.de/Approximate Air-Fluid Interactions for SPHCGFreiburg2017-04-20 | C. Gissler, S. Band, A. Peer, M. Ihmsen, M. Teschner, "Approximate Air-Fluid Interactions for SPH," Proc. VRIPHYS, Lyon, France, pp. 1-10, April 23-24, 2017.
http://cg.informatik.uni-freiburg.de/Terrain 2 - Up to 500 million particles with PreonLab (FIFTY2)CGFreiburg2016-12-23 | Simulated and rendered with PreonLab v1.4, http://www.fifty2.eu/ Computed and rendered on Intel Xeon, 24 cores, 2.7GHz, 256GB memoryViscous SPH with Vorticity DiffusionCGFreiburg2016-12-23 | A. Peer, M. Teschner, "Prescribed Velocity Gradients for Highly Viscous SPH Fluids with Vorticity Diffusion," TVCG Transactions on Visualization and Computer Graphics, DOI 10.1109/TVCG.2016.2636144, 20
http://cg.informatik.uni-freiburg.de/Liquid Boundaries in IISPHCGFreiburg2016-12-23 | J. Cornelis, M. Ihmsen, A. Peer, M. Teschner, "Liquid Boundaries for Implicit Incompressible SPH," Computers & Graphics, vol. 52, pp. 72-78, Nov. 2015.
http://cg.informatik.uni-freiburg.de/Terrain - Up to 400 million particles with PreonLab (FIFTY2)CGFreiburg2016-11-21 | Simulated and rendered with PreonLab v1.4, http://www.fifty2.eu/ Computed and rendered on Intel Xeon, 24 cores, 2.7GHz, 256GB memoryViscous SPH Castle - SIGGRAPH 2015CGFreiburg2015-08-18 | A. Peer, M. Ihmsen, J. Cornelis, M. Teschner, "An Implicit Viscosity Formulation for SPH Fluids," ACM Transactions on Graphics (Proc. SIGGRAPH 2015), vol. 34, no. 4, August 2015.
http://cg.informatik.uni-freiburg.de/
30 million particlesViscous SPH - ACM SIGGRAPH 2015CGFreiburg2015-06-03 | A. Peer, M. Ihmsen, J. Cornelis, M. Teschner, "An Implicit Viscosity Formulation for SPH Fluids," ACM Transactions on Graphics (Proc. SIGGRAPH 2015), vol. 34, no. 4, August 2015.
http://cg.informatik.uni-freiburg.de/Karman vortext street behind cylinder with Smoothed Particle Hydrodynamics IISPHCGFreiburg2015-03-12 | http://cg.informatik.uni-freiburg.de/
M. Ihmsen, J. Orthmann, B. Solenthaler, A. Kolb, M. Teschner, "SPH Fluids in Computer Graphics," Eurographics 2014 - State of the Art Reports, 2014.
M. Ihmsen, J. Cornelis, B. Solenthaler, C. Horvath, M. Teschner, "Implicit Incompressible SPH," IEEE Transactions on Visualization and Computer Graphics, 2014.
N. Akinci, M. Ihmsen, G. Akinci, B. Solenthaler, M. Teschner, "Versatile Rigid-Fluid Coupling for Incompressible SPH," Proc. ACM SIGGRAPH 2012.Ships - Implicit Incompressible Smoothed Particle HydrodynamicsCGFreiburg2014-07-10 | USS Savannah at 59 km/h (model taken from http://tf3dm.com)
Implicit Incompressible Smoothed Particle Hydrodynamics IISPH. Ships are static obstacles in the fluid flow.
M. Ihmsen, J. Cornelis, B. Solenthaler, C. Horvath, M. Teschner, "Implicit Incompressible SPH," IEEE Transactions on Visualization and Computer Graphics, March 2014.
M. Ihmsen, J. Orthmann, B. Solenthaler, A. Kolb, M. Teschner, "SPH Fluids in Computer Graphics," Eurographics 2014 - State of the Art Reports, 2014.
50 million IISPH fluid particles computed on a 16-core PC. Computation time: 30s per timestep (0.005s), 100 min per video second, 3 days per 45 video seconds.Breaking dams with 107 million SPH fluid particlesCGFreiburg2014-05-12 | Solver: Ihmsen et al., "Implicit Incompressible SPH," IEEE TVCG 2014.
Boundary handling: Akinci et al., "Versatile Rigid-Fluid Coupling for Incompressible SPH," ACM SIGGRAPH 2012.
Data structures: Ihmsen et al.: "A Parallel SPH Implementation on Multi-core CPUs," Computer Graphics Forum 2011.
Overview: Ihmsen et al.: "SPH Fluids in Computer Graphics," STAR Eurographics 2014.IISPH - Karman Vortex Street - Velocity FieldCGFreiburg2014-03-26 | http://cg.informatik.uni-freiburg.de/
M. Ihmsen, J. Cornelis, B. Solenthaler, C. Horvath, M. Teschner, "Implicit Incompressible SPH", IEEE TVCG, 2013.
M. Ihmsen, J. Orthmann, B. Solenthaler, A. Kolb, M. Teschner, "SPH Fluids in Computer Graphics," State-of-the-Art Report, Eurographics, 2014.IISPH - Karman Vortex Street - Top ViewCGFreiburg2014-03-26 | http://cg.informatik.uni-freiburg.de/
M. Ihmsen, J. Cornelis, B. Solenthaler, C. Horvath, M. Teschner, "Implicit Incompressible SPH", IEEE TVCG, 2013.
M. Ihmsen, J. Orthmann, B. Solenthaler, A. Kolb, M. Teschner, "SPH Fluids in Computer Graphics," State-of-the-Art Report, Eurographics, 2014.WaterfallCGFreiburg2014-02-06 | Waterfall simulated with 160 million fluid particles.
J. Cornelis, M. Ihmsen, A. Peer, M. Teschner, "IISPH-FLIP for Incompressible Fluids" Computer Graphics Forum (Proc. Eurographics 2014), 2014.Droplet splitCGFreiburg2013-11-14 | N. Akinci, G. Akinci, M. Teschner, "Versatile Surface Tension and Adhesion for SPH Fluids," ACM Transactions on Graphics (Proc. SIGGRAPH Asia 2013), Nov. 2013.Droplet with ragdollsCGFreiburg2013-11-14 | N. Akinci, G. Akinci, M. Teschner, "Versatile Surface Tension and Adhesion for SPH Fluids," ACM Transactions on Graphics (Proc. SIGGRAPH Asia 2013), Nov. 2013.Droplet - Wetting effectsCGFreiburg2013-11-14 | N. Akinci, G. Akinci, M. Teschner, "Versatile Surface Tension and Adhesion for SPH Fluids," ACM Transactions on Graphics (Proc. SIGGRAPH Asia 2013), Nov. 2013.Street - 28 million SPH fluid particles - Top viewCGFreiburg2013-07-16 | http://cg.informatik.uni-freiburg.de/
M. Ihmsen, J. Cornelis, B. Solenthaler, C. Horvath, M. Teschner, "Implicit Incompressible SPH", IEEE TVCG, 2013.
N. Akinci, M. Ihmsen, G. Akinci, B. Solenthaler, M. Teschner, "Versatile Rigid-Fluid Coupling for Incompressible SPH", ACM TOG (Proc. SIGGRAPH 2012), 2012.
G. Akinci, M. Ihmsen, N. Akinci, M. Teschner, "Parallel Surface Reconstruction for Particle-based Fluids", CGF, 2012.
M. Ihmsen, N. Akinci, M. Becker, M. Teschner, "A Parallel SPH Implementation on Multi-core CPUs", CGF, 2011.
mental ray 3.9Street - 28 million SPH fluid particlesCGFreiburg2013-07-16 | http://cg.informatik.uni-freiburg.de/
M. Ihmsen, J. Cornelis, B. Solenthaler, C. Horvath, M. Teschner, "Implicit Incompressible SPH", IEEE TVCG, 2013, accepted.
N. Akinci, M. Ihmsen, G. Akinci, B. Solenthaler, M. Teschner, "Versatile Rigid-Fluid Coupling for Incompressible SPH", ACM TOG (Proc. SIGGRAPH 2012), 2012.
G. Akinci, M. Ihmsen, N. Akinci, M. Teschner, "Parallel Surface Reconstruction for Particle-based Fluids", CGF, 2012.
M. Ihmsen, N. Akinci, M. Becker, M. Teschner, "A Parallel SPH Implementation on Multi-core CPUs", CGF, 2011.
mental ray 3.9Island - 10 million SPH fluid particlesCGFreiburg2013-07-16 | http://cg.informatik.uni-freiburg.de/
M. Ihmsen, J. Cornelis, B. Solenthaler, C. Horvath, M. Teschner, "Implicit Incompressible SPH", IEEE TVCG, 2013, accepted.
N. Akinci, M. Ihmsen, G. Akinci, B. Solenthaler, M. Teschner, "Versatile Rigid-Fluid Coupling for Incompressible SPH", ACM TOG (Proc. SIGGRAPH 2012), 2012.
G. Akinci, M. Ihmsen, N. Akinci, M. Teschner, "Parallel Surface Reconstruction for Particle-based Fluids", CGF, 2012.
M. Ihmsen, N. Akinci, M. Becker, M. Teschner, "A Parallel SPH Implementation on Multi-core CPUs", CGF, 2011.
mental ray 3.9Ducks - Fluid simulation with elastic solidsCGFreiburg2013-05-22 | http://cg.informatik.uni-freiburg.de/
N. Akinci, J. Cornelis, G. Akinci, M. Teschner, "Coupling Elastic Solids with SPH Fluids," Journal of Computer Animation and Virtual Worlds (CAVW), vol. 24, no. 3-4, pp. 195-203, CASA 2013 Special Issue, 2013.
N. Akinci, M. Ihmsen, G. Akinci, B. Solenthaler, M. Teschner, "Versatile Rigid-Fluid Coupling for Incompressible SPH," ACM Transactions on Graphics (Proc. SIGGRAPH 2012), vol. 31, no. 4, pp. 62:1-62:8, July 2012.
M. Ihmsen, N. Akinci, M. Becker, M. Teschner, "A Parallel SPH Implementation on Multi-core CPUs," Computer Graphics Forum, vol. 30, no. 1, pp. 99-112, 2011.Bowl - Fluid simulation with elastic solidsCGFreiburg2013-05-22 | http://cg.informatik.uni-freiburg.de/
N. Akinci, J. Cornelis, G. Akinci, M. Teschner, "Coupling Elastic Solids with SPH Fluids," Journal of Computer Animation and Virtual Worlds (CAVW), vol. 24, no. 3-4, pp. 195-203, CASA 2013 Special Issue, 2013.
N. Akinci, M. Ihmsen, G. Akinci, B. Solenthaler, M. Teschner, "Versatile Rigid-Fluid Coupling for Incompressible SPH," ACM Transactions on Graphics (Proc. SIGGRAPH 2012), vol. 31, no. 4, pp. 62:1-62:8, July 2012.
M. Ihmsen, N. Akinci, M. Becker, M. Teschner, "A Parallel SPH Implementation on Multi-core CPUs," Computer Graphics Forum, vol. 30, no. 1, pp. 99-112, 2011.Cloth - Fluid simulation with elastic solidsCGFreiburg2013-05-22 | http://cg.informatik.uni-freiburg.de/
N. Akinci, J. Cornelis, G. Akinci, M. Teschner, "Coupling Elastic Solids with SPH Fluids," Journal of Computer Animation and Virtual Worlds (CAVW), vol. 24, no. 3-4, pp. 195-203, CASA 2013 Special Issue, 2013.
N. Akinci, M. Ihmsen, G. Akinci, B. Solenthaler, M. Teschner, "Versatile Rigid-Fluid Coupling for Incompressible SPH," ACM Transactions on Graphics (Proc. SIGGRAPH 2012), vol. 31, no. 4, pp. 62:1-62:8, July 2012.
M. Ihmsen, N. Akinci, M. Becker, M. Teschner, "A Parallel SPH Implementation on Multi-core CPUs," Computer Graphics Forum, vol. 30, no. 1, pp. 99-112, 2011.Lighthouse 2 - Fluid simulation with foamCGFreiburg2013-05-22 | http://cg.informatik.uni-freiburg.de/
Foam simulation: M. Ihmsen, N. Akinci, G. Akinci, M. Teschner, "Unified Spray, Foam and Bubbles for Particle-based Fluids," The Visual Computer , vol. 28, no. 6-8, pp. 669-677, 2012.
Foam rendering: N. Akinci, A. Dippel, G. Akinci, M. Teschner, "Screen Space Foam Rendering," WSCG 2013.Ship - Fluid simulation with foamCGFreiburg2013-05-22 | http://cg.informatik.uni-freiburg.de/
Statistics: 9 million foam particles
Fluid solver: PCISPH
Foam simulation: M. Ihmsen, N. Akinci, G. Akinci, M. Teschner, "Unified Spray, Foam and Bubbles for Particle-based Fluids," The Visual Computer , vol. 28, no. 6-8, pp. 669-677, 2012.
Foam rendering: N. Akinci, A. Dippel, G. Akinci, M. Teschner, "Screen Space Foam Rendering," WSCG 2013. accepted.Flood - Fluid simulation with foamCGFreiburg2013-05-22 | http://cg.informatik.uni-freiburg.de/
Statistics: 17 million SPH particles 29 million foam particles
Computation time: 30 s / simulation step, 4 simulation steps per frame, 50 frames per video second, 2 hours per video second, 16-core CPU
see also M. Ihmsen, J. Orthmann, B. Solenthaler, A. Kolb, M. Teschner, "SPH Fluids in Computer Graphics," Eurographics 2014 - State of the Art Reports, pp. 21-42, 2014. http://cg.informatik.uni-freiburg.de/publications/2014_EG_SPH_STAR.pdf
Fluid solver: M. Ihmsen, J. Cornelis, B. Solenthaler, C. Horvath, M. Teschner, "Implicit Incompressible SPH," IEEE Transactions on Visualization and Computer Graphics, vol. 20, no. 3, pp. 426-435, March 2014.
Foam simulation: M. Ihmsen, N. Akinci, G. Akinci, M. Teschner, "Unified Spray, Foam and Bubbles for Particle-based Fluids," The Visual Computer , vol. 28, no. 6-8, pp. 669-677, 2012.
Foam rendering: N. Akinci, A. Dippel, G. Akinci, M. Teschner, "Screen Space Foam Rendering," WSCG 2013.WavesCGFreiburg2013-05-17 | http://cg.informatik.uni-freiburg.de/
Statistics: 16 million SPH particles 25 million foam particles
Fluid solver: IISPH M. Ihmsen, J. Cornelis, B. Solenthaler, C. Horvath, M. Teschner, "Implicit Incompressible SPH," IEEE TVCG, 2013.
Foam simulation: M. Ihmsen, N. Akinci, G. Akinci, M. Teschner, "Unified Spray, Foam and Bubbles for Particle-based Fluids," The Visual Computer , vol. 28, no. 6-8, pp. 669-677, 2012.
Foam rendering: N. Akinci, A. Dippel, G. Akinci, M. Teschner, "Screen Space Foam Rendering," WSCG 2013.Pouring WhiskeyCGFreiburg2013-05-15 | SPH fluid simulation. Particle diameter 2mm. 500K particles. Fluid compression 0.1%.
http://cg.informatik.uni-freiburg.de/
M. Ihmsen, J. Cornelis, B. Solenthaler, C. Horvath, M. Teschner, "Implicit Incompressible SPH," IEEE TVCG, 2013.Trapped air - Multiphase fluid simulationCGFreiburg2013-02-05 | http://cg.informatik.uni-freiburg.de/ M. Ihmsen, J. Bader, G. Akinci, M. Teschner, "Animation of Air Bubbles with SPH," GRAPP 2011, pp. 225-234, March 5-7, 2011Bridge - Granular material simulationCGFreiburg2013-02-05 | http://cg.informatik.uni-freiburg.de/
M. Ihmsen, A. Wahl, M. Teschner, "High-Resolution Simulation of Granular Material with SPH," Proc. VRIPHYS, Darmstadt, Germany, pp. 53-60, Dec. 6-7, 2012. Best Paper Award.Ball tossing - Granular material simulationCGFreiburg2013-02-05 | http://cg.informatik.uni-freiburg.de/
M. Ihmsen, A. Wahl, M. Teschner, "High-Resolution Simulation of Granular Material with SPH," Proc. VRIPHYS, Darmstadt, Germany, pp. 53-60, Dec. 6-7, 2012. Best Paper Award.Bulldozer - Granular material simulationCGFreiburg2013-02-05 | http://cg.informatik.uni-freiburg.de/
M. Ihmsen, A. Wahl, M. Teschner, "High-Resolution Simulation of Granular Material with SPH," Proc. VRIPHYS, Darmstadt, Germany, pp. 53-60, Dec. 6-7, 2012. Best Paper Award.Glass - Comparison of PCISPH and SESPHCGFreiburg2013-02-01 | http://cg.informatik.uni-freiburg.de/
M. Ihmsen, N. Akinci, M. Gissler, M. Teschner, "Boundary Handling and Adaptive Time-stepping for PCISPH," VRIPHYS, Copenhagen, Denmark, pp. 79-88, Nov 11-12, 2010.Beach with bears - Particle fluid simulation with adaptive time steppingCGFreiburg2013-02-01 | http://cg.informatik.uni-freiburg.de/
M. Ihmsen, N. Akinci, M. Gissler, M. Teschner, "Boundary Handling and Adaptive Time-stepping for PCISPH," VRIPHYS, Copenhagen, Denmark, pp. 79-88, Nov 11-12, 2010.Hemispheres - High-quality surfaces for particle-based fluid animationCGFreiburg2013-02-01 | http://cg.informatik.uni-freiburg.de/
G. Akinci, M. Ihmsen, N. Akinci, M. Teschner, "Parallel Surface Reconstruction for Particle-based Fluids," Computer Graphics Forum, vol. 31, no. 6, pp. 1797-1809, 2012.Cylinders - Fluid simulation with solid-fluid couplingCGFreiburg2013-02-01 | http://cg.informatik.uni-freiburg.de/
Rigid-fluid coupling: N. Akinci, M. Ihmsen, G. Akinci, B. Solenthaler, M. Teschner, "Versatile Rigid-Fluid Coupling for Incompressible SPH," ACM Transactions on Graphics (Proc. SIGGRAPH 2012), vol. 31, no. 4, pp. 62:1-62:8, July 2012.
SPH solver: Predictive-corrective Incompressible SPH [Solenthaler et al. 2009] Rigid body solver: Bullet (www.bulletphysics.org) Neighborhood search: A Parallel SPH Implementation on Multi-Core CPUs [Ihmsen et al. 2011] Kernel function: Cubic spline [Monaghan 2005] Time integration: Euler-Cromer Adaptive timestepping and boundary particle generation: Boundary handling and adaptive time-stepping for PCISPH. [Ihmsen et al. 2010] Surface reconstruction: Parallel Surface Reconstruction for Particle-based Fluids [Akinci et al. 2012] Rendering: Mental ray (www.mentalimages.com)Collapsing towers - Fluid simulation with solid-fluid couplingCGFreiburg2013-02-01 | http://cg.informatik.uni-freiburg.de/
Rigid-fluid coupling: N. Akinci, M. Ihmsen, G. Akinci, B. Solenthaler, M. Teschner, "Versatile Rigid-Fluid Coupling for Incompressible SPH," ACM Transactions on Graphics (Proc. SIGGRAPH 2012), vol. 31, no. 4, pp. 62:1-62:8, July 2012.
SPH solver: Predictive-corrective Incompressible SPH [Solenthaler et al. 2009] Rigid body solver: Bullet (www.bulletphysics.org) Neighborhood search: A Parallel SPH Implementation on Multi-Core CPUs [Ihmsen et al. 2011] Kernel function: Cubic spline [Monaghan 2005] Time integration: Euler-Cromer Adaptive timestepping and boundary particle generation: Boundary handling and adaptive time-stepping for PCISPH. [Ihmsen et al. 2010] Surface reconstruction: Parallel Surface Reconstruction for Particle-based Fluids [Akinci et al. 2012] Rendering: Mental ray (www.mentalimages.com)Fluid simulation with swimming shipCGFreiburg2013-02-01 | http://cg.informatik.uni-freiburg.de/
Rigid-fluid coupling: N. Akinci, M. Ihmsen, G. Akinci, B. Solenthaler, M. Teschner, "Versatile Rigid-Fluid Coupling for Incompressible SPH," ACM Transactions on Graphics (Proc. SIGGRAPH 2012), vol. 31, no. 4, pp. 62:1-62:8, July 2012.
SPH solver: Predictive-corrective Incompressible SPH [Solenthaler et al. 2009] Rigid body solver: Bullet (www.bulletphysics.org) Neighborhood search: A Parallel SPH Implementation on Multi-Core CPUs [Ihmsen et al. 2011] Kernel function: Cubic spline [Monaghan 2005] Time integration: semi-implicit Euler Adaptive timestepping and boundary particle generation: Boundary handling and adaptive time-stepping for PCISPH. [Ihmsen et al. 2010] Surface reconstruction: Parallel Surface Reconstruction for Particle-based Fluids [Akinci et al. 2012]Two-phase fluid simulation with solid-fluid couplingCGFreiburg2013-02-01 | http://cg.informatik.uni-freiburg.de/
Rigid-fluid coupling: N. Akinci, M. Ihmsen, G. Akinci, B. Solenthaler, M. Teschner, "Versatile Rigid-Fluid Coupling for Incompressible SPH," ACM Transactions on Graphics (Proc. SIGGRAPH 2012), vol. 31, no. 4, pp. 62:1-62:8, July 2012.
SPH solver: Predictive-corrective Incompressible SPH [Solenthaler et al. 2009] Rigid body solver: Bullet (www.bulletphysics.org) Neighborhood search: A Parallel SPH Implementation on Multi-Core CPUs [Ihmsen et al. 2011] Kernel function: Cubic spline [Monaghan 2005] Time integration: Euler-Cromer Adaptive timestepping and boundary particle generation: Boundary handling and adaptive time-stepping for PCISPH. [Ihmsen et al. 2010] Surface reconstruction: Parallel Surface Reconstruction for Particle-based Fluids [Akinci et al. 2012] Two-phase flow: Density contrast SPH interfaces. [Solenthaler, Pajarola 2008] Rendering: Mental ray (www.mentalimages.com)