Some examples of high order simulations parallel of inviscid flows on unstructured and hybrid meshes by residual distribution schemes

“…The resulting scheme is referred to later on in the paper as LLFs (the first "L" for Limited, the "s" for stabilized). In [8] is discussed the choice of minimal quadrature formula for the evaluation of the integral term. Adding the least square term destroys in principle the maximum preserving property of the method, however in practice it does not, this is why we call this essentially non oscillatory RD scheme: the least square term acts as a mild filter of the spurious modes.…”

Hyperbolic balance laws: residual distribution, local and global fluxes

“…The resulting scheme is referred to later on in the paper as LLFs (the first "L" for Limited, the "s" for stabilized). In [8] is discussed the choice of minimal quadrature formula for the evaluation of the integral term. Adding the least square term destroys in principle the maximum preserving property of the method, however in practice it does not, this is why we call this essentially non oscillatory RD scheme: the least square term acts as a mild filter of the spurious modes.…”

Hyperbolic balance laws: residual distribution, local and global fluxes

“…As in continuous and discontinuous finite element methods, the key toward high accuracy is the use of a high order polynomial representation of the unknowns in the computation of the cell residuals [4]. Although this approach has shown great potential in steady applications [2,3], the current state of the art [1] shows that further work is needed to bring the method to the level of maturity of more popular techniques, such as the discontinuous Galerkin (DG) method.…”

Comparison of high order algorithms in Aerosol and Aghora for compressible flows

Hyperbolic Balance Laws: Residual Distribution, Local and Global Fluxes