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An algebraic flux correction scheme satisfying the discrete maximum principle and linearity preservation on general meshes
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Citations
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References
2017
Year
Numerical AnalysisMathematical ProgrammingEngineeringComputer-aided DesignComputational MechanicsMesh OptimizationNumerical ComputationNumerical SimulationNew Flux LimiterComputational GeometryBoundary Element MethodGeometric ModelingGeneral MeshesUnstructured Mesh GenerationPositivity PreservingNumerical Method For Partial Differential EquationFinite Element MethodNatural SciencesMesh ReductionDiscrete Maximum PrincipleLinearity Preservation
This work is devoted to the proposal of a new flux limiter that makes the algebraic flux correction finite element scheme linearity and positivity preserving on general simplicial meshes. Minimal assumptions on the limiter are given in order to guarantee the validity of the discrete maximum principle, and then a precise definition of it is proposed and analyzed. Numerical results for convection–diffusion problems confirm the theory.
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