AbstractIn a recent paper [1] a number of numerical schemes for the shallow water equations based on a conservative linearization are analyzed. In particular, it is established that the schemes are related through the use of a source term. In this paper this technique is applied to the Euler equations, and further analysis suggests a new formulation of an existing scheme having the same key properties
In a recent paper [P. Glaister, Conservative upwind difference schemes for compressible flows in a D...
AbstractIn a recent paper [P. Glaister, Conservative upwind difference schemes for compressible flow...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77364/1/AIAA-1989-1931-789.pd
AbstractIn a recent paper [1] a number of numerical schemes for the shallow water equations based on...
AbstractA study of a number of current numerical schemes for the shallow water equations leads to th...
AbstractNumerical results are presented and compared for four conservative upwind difference schemes...
Numerical results are presented and compared for three conservative upwind difference schemes for th...
AbstractNumerical results are presented and compared for three conservative upwind difference scheme...
AbstractConservative upwind finite-difference schemes are presented for the solution of the one-dime...
A multidimensional upwinding technique is applied to the simula-tion of 2D shallow water ows. It is...
AbstractIn a recent paper [P. Glaister, Conservative upwind difference schemes for the Euler equatio...
AbstractIn a recent paper [1], numerical schemes based on a conservative linearisation arepresented ...
AbstractThe classical nonlinear shallow-water model (SWM) of an ideal fluid is considered. For the m...
A finite-difference scheme for solving the linear shallow water equations in a bounded domain is des...
AbstractNumerical results are presented, and compared, for four conservative upwind difference schem...
In a recent paper [P. Glaister, Conservative upwind difference schemes for compressible flows in a D...
AbstractIn a recent paper [P. Glaister, Conservative upwind difference schemes for compressible flow...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77364/1/AIAA-1989-1931-789.pd
AbstractIn a recent paper [1] a number of numerical schemes for the shallow water equations based on...
AbstractA study of a number of current numerical schemes for the shallow water equations leads to th...
AbstractNumerical results are presented and compared for four conservative upwind difference schemes...
Numerical results are presented and compared for three conservative upwind difference schemes for th...
AbstractNumerical results are presented and compared for three conservative upwind difference scheme...
AbstractConservative upwind finite-difference schemes are presented for the solution of the one-dime...
A multidimensional upwinding technique is applied to the simula-tion of 2D shallow water ows. It is...
AbstractIn a recent paper [P. Glaister, Conservative upwind difference schemes for the Euler equatio...
AbstractIn a recent paper [1], numerical schemes based on a conservative linearisation arepresented ...
AbstractThe classical nonlinear shallow-water model (SWM) of an ideal fluid is considered. For the m...
A finite-difference scheme for solving the linear shallow water equations in a bounded domain is des...
AbstractNumerical results are presented, and compared, for four conservative upwind difference schem...
In a recent paper [P. Glaister, Conservative upwind difference schemes for compressible flows in a D...
AbstractIn a recent paper [P. Glaister, Conservative upwind difference schemes for compressible flow...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77364/1/AIAA-1989-1931-789.pd