Physics-based fluid simulation in computer graphics: Survey, research trends, and challenges
Physics-based fluid simulation has played an increasingly important role in the computer
graphics community. Recent methods in this area have greatly improved the generation of …
graphics community. Recent methods in this area have greatly improved the generation of …
Divergence-free SPH for incompressible and viscous fluids
J Bender, D Koschier - IEEE Transactions on Visualization and …, 2016 - ieeexplore.ieee.org
In this paper we present a novel Smoothed Particle Hydrodynamics (SPH) method for the
efficient and stable simulation of incompressible fluids. The most efficient SPH-based …
efficient and stable simulation of incompressible fluids. The most efficient SPH-based …
A physically consistent implicit viscosity solver for SPH fluids
M Weiler, D Koschier, M Brand… - Computer Graphics …, 2018 - Wiley Online Library
In this paper, we present a novel physically consistent implicit solver for the simulation of
highly viscous fluids using the Smoothed Particle Hydrodynamics (SPH) formalism. Our …
highly viscous fluids using the Smoothed Particle Hydrodynamics (SPH) formalism. Our …
Silly rubber: an implicit material point method for simulating non-equilibrated viscoelastic and elastoplastic solids
Simulating viscoelastic polymers and polymeric fluids requires a robust and accurate
capture of elasticity and viscosity. The computation is known to become very challenging …
capture of elasticity and viscosity. The computation is known to become very challenging …
A unified second-order accurate in time MPM formulation for simulating viscoelastic liquids with phase change
We assume that the viscous forces in any liquid are simultaneously local and non-local, and
introduce the extended POM-POM model [McLeish and Larson 1998; Oishi et al. 2012; …
introduce the extended POM-POM model [McLeish and Larson 1998; Oishi et al. 2012; …
A Unified MPM Framework Supporting Phase-field Models and Elastic-viscoplastic Phase Transition
Recent years have witnessed the rapid deployment of numerous physics-based modeling
and simulation algorithms and techniques for fluids, solids, and their delicate coupling in …
and simulation algorithms and techniques for fluids, solids, and their delicate coupling in …
Implicit surface tension for SPH fluid simulation
The numerical simulation of surface tension is an active area of research in many different
fields of application and has been attempted using a wide range of methods. Our …
fields of application and has been attempted using a wide range of methods. Our …
Wetbrush: GPU-based 3D painting simulation at the bristle level
We present a real-time painting system that simulates the interactions among brush, paint,
and canvas at the bristle level. The key challenge is how to model and simulate sub-pixel …
and canvas at the bristle level. The key challenge is how to model and simulate sub-pixel …
Position-based surface tension flow
This paper presents a novel approach to simulating surface tension flow within a position-
based dynamics (PBD) framework. We enhance the conventional PBD fluid method in terms …
based dynamics (PBD) framework. We enhance the conventional PBD fluid method in terms …
Codimensional surface tension flow using moving-least-squares particles
We propose a new Eulerian-Lagrangian approach to simulate the various surface tension
phenomena characterized by volume, thin sheets, thin filaments, and points using Moving …
phenomena characterized by volume, thin sheets, thin filaments, and points using Moving …