Technical Papers

Fluids and Flows

Saturday, 18 December | 11:00 AM - 12:45 PM | Room E1-E4

Presented in English / 영어로 발표 됨

Session Chair

John Keyser

TOG Article: 173

Free-Flowing Granular Materials With Two-Way Solid Coupling

An efficient continuum-based model for simulating granular materials that allows free flows with zero cohesion, global coupling between pressure and friction, and two-way interaction with solid bodies.

Rahul Narain
University of North Carolina at Chapel Hill

Abhinav Golas
University of North Carolina at Chapel Hill

Ming Lin
University of North Carolina at Chapel Hill

TOG Article: 174

Scalable Fluid Simulation Using Anisotropic Turbulence Particles

A novel, scalable method for simulating turbulent fluids. The method uses energy transport and an efficient particle representation to achieve accurate turbulent detail at interactive frame rates.

Tobias Pfaff
ETH Zurich

Nils Thuerey
ETH Zurich

Sarah Tariq
NVIDIA Corporation

Markus Gross
ETH Zurich

Jonathan Cohen
NVIDIA Corporation

TOG Article: 175

Multi-Phase Fluid Simulations Using Regional Level Sets

Simulation of multi-phase liquid interactions with each component registered to the regional level-set graph.

Byungmoon Kim
NVIDIA Corporation

TOG Article: 176

Detail-Preserving Fully-Eulerian Interface Tracking Framework

This paper presents a new fully Eulerian interface tracking framework that preserves fine details of liquid.

Nambin Heo
Seoul National University

Hyeong-Seok Ko
Seoul National University