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 …
The power particle-in-cell method
This paper introduces a new weighting scheme for particle-grid transfers that generates
hybrid Lagrangian/Eulerian fluid simulations with uniform particle distributions and precise …
hybrid Lagrangian/Eulerian fluid simulations with uniform particle distributions and precise …
A stabilized local RBF collocation method for incompressible Navier–Stokes equations
In this work, a stabilized local radial basis function (RBF) collocation method (LRBFCM) is
proposed to solve the incompressible Navier–Stokes equations. An improved back ground …
proposed to solve the incompressible Navier–Stokes equations. An improved back ground …
A Dual-Particle Approach for Incompressible SPH Fluids
Tensile instability is one of the major obstacles to particle methods in fluid simulation, which
would cause particles to clump in pairs under tension and prevent fluid simulation to …
would cause particles to clump in pairs under tension and prevent fluid simulation to …
Numerical simulation of 3D double-nozzles printing by considering a stabilized localized radial basis function collocation method
In this work, a stabilized local radial basis function collocation method (LRBFCM) is
proposed to simulate the electrochemical 3D double-nozzles printing. A forward Euler …
proposed to simulate the electrochemical 3D double-nozzles printing. A forward Euler …
The Impulse Particle‐In‐Cell Method
An ongoing challenge in fluid animation is the faithful preservation of vortical details, which
impacts the visual depiction of flows. We propose the Impulse Particle‐In‐Cell (IPIC) …
impacts the visual depiction of flows. We propose the Impulse Particle‐In‐Cell (IPIC) …
An efficient non-iterative smoothed particle hydrodynamics fluid simulation method with variable smoothing length
M Li, H Li, W Meng, J Zhu, G Zhang - Visual Computing for Industry …, 2023 - Springer
In classical smoothed particle hydrodynamics (SPH) fluid simulation approaches, the
smoothing length of Lagrangian particles is typically constant. One major disadvantage is …
smoothing length of Lagrangian particles is typically constant. One major disadvantage is …
Spatial adaptivity with boundary refinement for smoothed particle hydrodynamics fluid simulation
Y Xu, C Song, X Wang, X Ban, J Wang… - … and Virtual Worlds, 2023 - Wiley Online Library
Fluid simulation is well‐known for being visually stunning while computationally expensive.
Spatial adaptivity can effectively ease the computational cost by discretizing the simulation …
Spatial adaptivity can effectively ease the computational cost by discretizing the simulation …
Smoothed Particle Hydrodynamics for Fluid Simulation in Computer Graphics
Y Xu - 2025 - research.rug.nl
This thesis studies the simulation of fluid flow, like water streaming across obstacles in a
physical setting, using a novel combination of methods and techniques. Our first contribution …
physical setting, using a novel combination of methods and techniques. Our first contribution …
[PDF][PDF] Physics-based fluid simulation in computer graphics: Survey
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 …