The General Interpolants Method (GIM) code which solves the multidimensional Navier-Stokes equations for arbitrary geometric domains is described. The geometry module in the GIM code generates two and three dimensional grids over specified flow regimes, establishes boundary condition information and computes finite difference analogs for use in the GIM code numerical solution module. The technique can be classified as an algebraic equation approach. The geometry package uses multivariate blending function interpolation of vector-values functions which define the shapes of the edges and surfaces bounding the flow domain. By employing blending functions which conform to the cardinality conditions the flow domain may be mapped onto a unit squa...
The solution of partial differential equations which describe physical phenomena by the use of coord...
a) One of the basic problems at the fluid dynamics computation is creation of the most full models o...
Algebraic procedures are described for the automatic generation of structured, single-block flow com...
AbstractThis paper is concerned with analysis and applications of geometry-grid generation methodolo...
A methodology is introduced for constructing numerical analogs of the partial differential equations...
The generation of metric coefficients of the coordinate transformation from a generally curved-sided...
Finite difference methods for composite grids were analyzed. It was observed that linear interpolati...
The solution of problems in Computational Fluid Dynamics (CFD), using finite difference, finite volu...
A direct procedure is presented for locally bicubic interpolation on a structured, curvilinear, two-...
The finite element method for fluid dynamics was used to develop a two dimensional mesh generation s...
A grid generation system was developed that enables grid generation for complex configurations. The ...
This paper presents a Hermite polynomial interpolation based method to construct high-order accuracy...
A grid generation procedure combining interactive and batch grid generation programs was put togethe...
Using global interpolation functions (GIF's), boundary element solutions are obtained for two- and t...
The paper describes a technique for the generation of boundary-fitted curvilinear coordinate systems...
The solution of partial differential equations which describe physical phenomena by the use of coord...
a) One of the basic problems at the fluid dynamics computation is creation of the most full models o...
Algebraic procedures are described for the automatic generation of structured, single-block flow com...
AbstractThis paper is concerned with analysis and applications of geometry-grid generation methodolo...
A methodology is introduced for constructing numerical analogs of the partial differential equations...
The generation of metric coefficients of the coordinate transformation from a generally curved-sided...
Finite difference methods for composite grids were analyzed. It was observed that linear interpolati...
The solution of problems in Computational Fluid Dynamics (CFD), using finite difference, finite volu...
A direct procedure is presented for locally bicubic interpolation on a structured, curvilinear, two-...
The finite element method for fluid dynamics was used to develop a two dimensional mesh generation s...
A grid generation system was developed that enables grid generation for complex configurations. The ...
This paper presents a Hermite polynomial interpolation based method to construct high-order accuracy...
A grid generation procedure combining interactive and batch grid generation programs was put togethe...
Using global interpolation functions (GIF's), boundary element solutions are obtained for two- and t...
The paper describes a technique for the generation of boundary-fitted curvilinear coordinate systems...
The solution of partial differential equations which describe physical phenomena by the use of coord...
a) One of the basic problems at the fluid dynamics computation is creation of the most full models o...
Algebraic procedures are described for the automatic generation of structured, single-block flow com...