Pages that link to "Item:Q2221138"

The following pages link to The active flux scheme for nonlinear problems (Q2221138):

Displaying 20 items.

• Acceleration of the nonlinear corner-balance scheme by the averaged flux method (Q1368628) (← links)
• Third-order active-flux scheme for advection diffusion: hyperbolic diffusion, boundary condition, and Newton solver (Q1646754) (← links)
• Dynamic flux balance analysis with nonlinear objective function (Q1679011) (← links)
• Hyperbolic balance laws: modeling, analysis, and numerics. Abstracts from the workshop held February 28 -- March 6, 2021 (hybrid meeting) (Q2131204) (← links)
• A new ADER method inspired by the active flux method (Q2330667) (← links)
• The active flux scheme on Cartesian grids and its low Mach number limit (Q2333712) (← links)
• The Cartesian grid active flux method: linear stability and bound preserving limiting (Q2662585) (← links)
• A combination of residual distribution and the active flux formulations or a new class of schemes that can combine several writings of the same hyperbolic problem: application to the 1D Euler equations (Q2692154) (← links)
• Small collaboration: Modeling phenomena from nature by hyperbolic partial differential equations. Abstracts from the small collaboration held April 11--17, 2021 (hybrid meeting) (Q2693000) (← links)
• A hybrid finite element-finite volume method for conservation laws (Q2698201) (← links)
• On the Active Flux Scheme for Hyperbolic PDEs with Source Terms (Q5021406) (← links)
• An Active Flux Method for Cut Cell Grids (Q5117476) (← links)
• Extensions of Active Flux to arbitrary order of accuracy (Q6041059) (← links)
• All-speed numerical methods for the Euler equations via a sequential explicit time integration (Q6101552) (← links)
• The Cartesian grid active flux method with adaptive mesh refinement (Q6101599) (← links)
• Structure-preserving discretizations for nonlinear systems of hyperbolic, involution-constrained partial differential equations on manifolds. Abstracts from the workshop held April 10--16, 2022 (Q6170528) (← links)
• Implicit active flux methods for linear advection (Q6191352) (← links)
• Active flux methods for hyperbolic systems using the method of bicharacteristics (Q6196230) (← links)
• A well-balanced active flux method for the shallow water equations with wetting and drying (Q6593804) (← links)
• A semi-discrete active flux method for the Euler equations on Cartesian grids (Q6665309) (← links)