Add to ORKGIn this paper, we present an efficient semi-Lagrangian based particle level set method for the accurate capturing of interfaces. This method retains the robust topological properties of the level set method with-out the adverse effects of numerical dissipation. Both the level set method and the particle level set method typically use high order ac-curate numerical discretizations in time and space, e.g. TVD Runge-Kutta and HJ-WENO schemes. We demonstrate that these computa-tionally expensive schemes are not required. Instead, fast, low order accurate numerical schemes suffice. That is, the addition of particles to the level set method not only removes the difficulties associated with numerical diffusion, but also alleviates the need for com...
We combine the advantages of level sets, particle level sets, and point-set surfaces in a simple ne...
This work presents three algorithms for the level set modeling of phase boundaries. The application...
In the context of numerical simulations of multiphysics flows, accurate tracking of an interface and...
We present a machine learning framework that blends image super-resolution technologies with passive...
A new method for tracking evolving interfaces by lagrangian particles in conjunction with a Level-Se...
We present a quasi-monotone semi-Lagrangian particle level set (QMSL-PLS) method for moving interfac...
A one-layer particle level set method in which Lagrangian particles are employed to track the interf...
Since the seminal work of [92] on coupling the level set method of [69] to the equations for two-pha...
Level set methods have evolved as powerful tools for the representation and evolution of free surfac...
International audienceSemi-lagrangian (or remeshed) particle methods are conservative particle metho...
International audienceSemi-lagrangian (or remeshed) particle methods are conservative particle metho...
Many interfacial phenomena in physical and biological systems are dominated by high order geometric ...
Moving interfaces occur in many scientific and engineering problems. For example, in combustion prob...
Moving interfaces occur in many scientific and engineering problems. For example, in combustion prob...
We combine the advantages of level sets, particle level sets, and point-set surfaces in a simple ne...
We combine the advantages of level sets, particle level sets, and point-set surfaces in a simple ne...
This work presents three algorithms for the level set modeling of phase boundaries. The application...
In the context of numerical simulations of multiphysics flows, accurate tracking of an interface and...
We present a machine learning framework that blends image super-resolution technologies with passive...
A new method for tracking evolving interfaces by lagrangian particles in conjunction with a Level-Se...
We present a quasi-monotone semi-Lagrangian particle level set (QMSL-PLS) method for moving interfac...
A one-layer particle level set method in which Lagrangian particles are employed to track the interf...
Since the seminal work of [92] on coupling the level set method of [69] to the equations for two-pha...
Level set methods have evolved as powerful tools for the representation and evolution of free surfac...
International audienceSemi-lagrangian (or remeshed) particle methods are conservative particle metho...
International audienceSemi-lagrangian (or remeshed) particle methods are conservative particle metho...
Many interfacial phenomena in physical and biological systems are dominated by high order geometric ...
Moving interfaces occur in many scientific and engineering problems. For example, in combustion prob...
Moving interfaces occur in many scientific and engineering problems. For example, in combustion prob...
We combine the advantages of level sets, particle level sets, and point-set surfaces in a simple ne...
We combine the advantages of level sets, particle level sets, and point-set surfaces in a simple ne...
This work presents three algorithms for the level set modeling of phase boundaries. The application...
In the context of numerical simulations of multiphysics flows, accurate tracking of an interface and...