Liquid-fabric interaction simulations using particle-in-cell (PIC) based models have been used to simulate a wide variety of phenomena and yield impressive visual results. However, these models suffer from numerical damping due to the data interpolation between the particles and grid. Our paper addresses this by using the polynomial PIC (PolyPIC) model instead of the affine PIC (APIC) model that is used in current state-of-the-art wet cloth models. The affine transfers of the APIC model are replaced by the higher order polynomials of PolyPIC, thus reducing numerical dissipation and improving resolution of vorticial details. This improved energy preservation enables more dynamic simulations to be generated although this is at an increased co...
Pseudo-particle modeling (PPM) is a particle method (PM) proposed in 1996. Though it is effective fo...
Fabric drapes are typical large displacement, large rotation but small strain problems. In particle ...
A project aimed at the 3D simulation of textile yarns from technical specifications was begun in 19...
Figure 1: APIC/PIC blends yield more energetic and more stable behavior than FLIP/PIC blends in a wi...
The Material Point Method (MPM) has shown its high potential for physics-based simulation in the are...
Particle-in-Cell (PIC) methods are widely used computational tools for fluid and kinetic plasma mode...
Pseudo-particle modeling (PPM) is a particle method (PM) proposed in 1996. Though it is effective fo...
With cloth simulation, as in most of Computer Graphics, the challenge lies in making the artifact on...
PIC (Particle-in-cell) modeling is a computational technique which functions by advancing computer p...
An efficient simulation method is presented for Brownian fiber suspensions, which includes both uncr...
In this dissertation, we introduce a framework for simulating the dynamics between liquid and thin s...
The complex yarn structure of knitted and woven fabrics gives rise to both a mechanical and visual c...
We present a particle-based method to simulate and visualize the interaction of knitwear with fluids...
Particle suspensions are ubiquitous in our daily life, but are not well understood due to their comp...
In an earlier work (Litvinov et al., Phys.Rev.E 77, 066703 (2008)), a model for a polymer molecule i...
Pseudo-particle modeling (PPM) is a particle method (PM) proposed in 1996. Though it is effective fo...
Fabric drapes are typical large displacement, large rotation but small strain problems. In particle ...
A project aimed at the 3D simulation of textile yarns from technical specifications was begun in 19...
Figure 1: APIC/PIC blends yield more energetic and more stable behavior than FLIP/PIC blends in a wi...
The Material Point Method (MPM) has shown its high potential for physics-based simulation in the are...
Particle-in-Cell (PIC) methods are widely used computational tools for fluid and kinetic plasma mode...
Pseudo-particle modeling (PPM) is a particle method (PM) proposed in 1996. Though it is effective fo...
With cloth simulation, as in most of Computer Graphics, the challenge lies in making the artifact on...
PIC (Particle-in-cell) modeling is a computational technique which functions by advancing computer p...
An efficient simulation method is presented for Brownian fiber suspensions, which includes both uncr...
In this dissertation, we introduce a framework for simulating the dynamics between liquid and thin s...
The complex yarn structure of knitted and woven fabrics gives rise to both a mechanical and visual c...
We present a particle-based method to simulate and visualize the interaction of knitwear with fluids...
Particle suspensions are ubiquitous in our daily life, but are not well understood due to their comp...
In an earlier work (Litvinov et al., Phys.Rev.E 77, 066703 (2008)), a model for a polymer molecule i...
Pseudo-particle modeling (PPM) is a particle method (PM) proposed in 1996. Though it is effective fo...
Fabric drapes are typical large displacement, large rotation but small strain problems. In particle ...
A project aimed at the 3D simulation of textile yarns from technical specifications was begun in 19...