Pages that link to "Item:Q5487800"

The following pages link to Continuous, discontinuous and coupled discontinuous–continuous Galerkin finite element methods for the shallow water equations (Q5487800):

Displaying 33 items.

• A comparison of artificial viscosity, limiters, and filters, for high order discontinuous Galerkin solutions in nonlinear settings (Q283324) (← links)
• Scalability of an unstructured grid continuous Galerkin based hurricane storm surge model (Q361541) (← links)
• A discontinuous/continuous low order finite element shallow water model on the sphere (Q419592) (← links)
• Discontinuous Galerkin methods with nodal and hybrid modal/nodal triangular, quadrilateral, and polygonal elements for nonlinear shallow water flow (Q460840) (← links)
• Stability of nonlinear convection-diffusion-reaction systems in discontinuous Galerkin methods (Q520192) (← links)
• A discontinuous Galerkin method for three-dimensional shallow water equations (Q556023) (← links)
• Discontinuous Galerkin spectral/\(hp\) element modelling of dispersive shallow water systems (Q556026) (← links)
• A performance comparison of continuous and discontinuous finite element shallow water models (Q618483) (← links)
• A wetting and drying treatment for the Runge-Kutta discontinuous Galerkin solution to the shallow water equations (Q649382) (← links)
• Space-time SUPG finite element computation of shallow-water flows with moving shorelines (Q657209) (← links)
• Artificial boundary layers in discontinuous Galerkin solutions to shallow water equations in channels (Q729276) (← links)
• Space-time discontinuous Galerkin finite element method for shallow water flows (Q883482) (← links)
• A continuous/discontinuous Galerkin framework for modeling coupled subsurface and surface water flow (Q1000895) (← links)
• Discontinuous/continuous Galerkin methods for coupling the primitive and wave continuity equations of shallow water. (Q1430652) (← links)
• Coupled discontinuous and continuous Galerkin finite element methods for the depth-integrated shallow water equations. (Q1430662) (← links)
• Discontinuous and coupled continuous/discontinuous Galerkin methods for the shallow water equations (Q1867613) (← links)
• Performance of the unstructured-mesh, SWAN+ADCIRC model in computing hurricane waves and surge (Q1930405) (← links)
• Discontinuous Galerkin formulation for 2D hydrodynamic modelling: trade-offs between theoretical complexity and practical convenience (Q1986424) (← links)
• Enriched Galerkin method for the shallow-water equations (Q2023274) (← links)
• p-adaptive discontinuous Galerkin method for the shallow water equations with a parameter-free error indicator (Q2087767) (← links)
• IMEX HDG-DG: a coupled implicit hybridized discontinuous Galerkin and explicit discontinuous Galerkin approach for shallow water systems (Q2222694) (← links)
• A novel local time stepping algorithm for shallow water flow simulation in the discontinuous Galerkin framework (Q2285955) (← links)
• Formulation and application of the adaptive hydraulics three-dimensional shallow water and transport models (Q2312105) (← links)
• A comparison of the explicit and implicit hybridizable discontinuous Galerkin methods for nonlinear shallow water equations (Q2330692) (← links)
• Hp discontinuous Galerkin methods for advection dominated problems in shallow water flow (Q2459242) (← links)
• The local discontinuous Galerkin method for three-dimensional shallow water flow (Q2459271) (← links)
• Edge-based finite element method for shallow water equations (Q2745457) (← links)
• A comparison of the GWCE and mixed \(P_1^{NC} - P_1\) formulations in finite-element linearized shallow-water models (Q2884048) (← links)
• A performance comparison of nodal discontinuous Galerkin methods on triangles and quadrilaterals (Q3068363) (← links)
• High‐order 𝒞¹finite‐element interpolating schemes—Part II: Nonlinear semi‐Lagrangian shallow‐water models (Q3515870) (← links)
• Practical evaluation of five partly discontinuous finite element pairs for the non-conservative shallow water equations (Q3562279) (← links)
• A Highly Efficient Numerical Method for Rotating Oceanographic Flows Modeled by Saint-Venant System with Coriolis Forces (Q5161419) (← links)
• SUPG formulation augmented with YZβ shock‐capturing for computing shallow‐water equations (Q6121402) (← links)