Add to ORKGThis chapter focuses on three computer-aided geometric design (CAGD) techniques that are often needed to ''prepare'' a complex geometry for grid generation. Standard grid generation methods, as discussed in [George '91], [Knupp & Steinberg '93], and [Thompson et al. '85], assume that parametric surfaces are well parametrized and free of undesired discontinuities. We describe CAGD techniques that are extremely helpful for the preparation of complex geometries for the grid generation process
While traditional computer aided design (CAD) is mainly based on piecewise polynomial surface repres...
Computer Aided Geometric Design (CAGD) is concerned with efficiently modeling physical objects with ...
The comparative analysis of formation of canonical surfaces in a graphics editor AutoCAD and traditi...
The basic philosophy and techniques of the interactive parametric grid generation system Megacads ar...
In Computer Aided Geometric Design ( CAGD ) the automated fitting of surfaces to massive series of d...
The B-spline approximation techniques applicable to surface grid generation pertinent to computation...
An outline is presented for the creation of surface grids from primitive geometry data such as obtai...
Chapter?? describes the fundamental geometric setting for 3D modeling and addresses Euclidean, affin...
Geometry modeling and grid generation (GMGG) have played and will continue to play an important role...
Computer aided design software enables the rapid conceptual creation of a curved surface geometry, w...
Computer aided design software enables the rapid conceptual creation of a curved surface geometry, w...
We describe some algorithms and tools that have been developed to generate com-posite overlapping gr...
This fifth edition has been fully updated to cover the many advances made in CAGD and curve and surf...
While traditional computer aided design (CAD) is mainly based on piecewise polynomial surface repres...
While traditional computer aided design (CAD) is mainly based on piecewise polynomial surface repres...
While traditional computer aided design (CAD) is mainly based on piecewise polynomial surface repres...
Computer Aided Geometric Design (CAGD) is concerned with efficiently modeling physical objects with ...
The comparative analysis of formation of canonical surfaces in a graphics editor AutoCAD and traditi...
The basic philosophy and techniques of the interactive parametric grid generation system Megacads ar...
In Computer Aided Geometric Design ( CAGD ) the automated fitting of surfaces to massive series of d...
The B-spline approximation techniques applicable to surface grid generation pertinent to computation...
An outline is presented for the creation of surface grids from primitive geometry data such as obtai...
Chapter?? describes the fundamental geometric setting for 3D modeling and addresses Euclidean, affin...
Geometry modeling and grid generation (GMGG) have played and will continue to play an important role...
Computer aided design software enables the rapid conceptual creation of a curved surface geometry, w...
Computer aided design software enables the rapid conceptual creation of a curved surface geometry, w...
We describe some algorithms and tools that have been developed to generate com-posite overlapping gr...
This fifth edition has been fully updated to cover the many advances made in CAGD and curve and surf...
While traditional computer aided design (CAD) is mainly based on piecewise polynomial surface repres...
While traditional computer aided design (CAD) is mainly based on piecewise polynomial surface repres...
While traditional computer aided design (CAD) is mainly based on piecewise polynomial surface repres...
Computer Aided Geometric Design (CAGD) is concerned with efficiently modeling physical objects with ...
The comparative analysis of formation of canonical surfaces in a graphics editor AutoCAD and traditi...