We continue the study of rational envelope (RE) surfaces. Although these surfaces are parametrized with the help of square roots, when considering an RE patch as the medial surface transform in 4D of a spatial domain it yields a rational parametrization of the domain's boundary, i.e., the envelope of the corresponding 2-parameter family of spheres. We formulate efficient algorithms for G1 data interpolation using RE surfaces and apply the developed methods to rational skinning and blending of sets of spheres and cones/cylinders, respectively. Our results are demonstrated on several computed examples of skins and blends with rational parametrizations
The rational ruled surface is a typical modeling surface in computer aided geometric design. A rati...
We provide algorithms to reconstruct rational ruled surfaces in three-dimensional projective space ...
MOS surfaces are rational surfaces in R3,1 which possess rational en-velopes of the associated two-p...
We continue the study of rational envelope (RE) surfaces. Although these surfaces are parametrized w...
We continue the study of rational envelope (RE) surfaces. Although these surfaces are parametrized w...
We continue the study of rational envelope (RE) surfaces. Although these surfaces are parametrized w...
We continue the study of rational envelope (RE) surfaces. Although these surfaces are parametrized w...
We continue the study of rational envelope (RE) surfaces. Although these surfaces are parametrized w...
We continue the study of rational envelope (RE) surfaces. Although these surfaces are parametrized w...
We continue the study of rational envelope (RE) surfaces. Although these surfaces are parametrized w...
Minkowski Pythagorean hodograph (MPH) curves provide a means for representing domains with rational ...
Minkowski Pythagorean hodograph (MPH) curves provide a means for representing domains with rational ...
In this paper we will continue in investigating ‘contour method’ and its using for the computation o...
In this paper we will continue in investigating ‘contour method’ and its using for the computation o...
The rational ruled surface is a typical modeling surface in computer aided geometric design. A rati...
The rational ruled surface is a typical modeling surface in computer aided geometric design. A rati...
We provide algorithms to reconstruct rational ruled surfaces in three-dimensional projective space ...
MOS surfaces are rational surfaces in R3,1 which possess rational en-velopes of the associated two-p...
We continue the study of rational envelope (RE) surfaces. Although these surfaces are parametrized w...
We continue the study of rational envelope (RE) surfaces. Although these surfaces are parametrized w...
We continue the study of rational envelope (RE) surfaces. Although these surfaces are parametrized w...
We continue the study of rational envelope (RE) surfaces. Although these surfaces are parametrized w...
We continue the study of rational envelope (RE) surfaces. Although these surfaces are parametrized w...
We continue the study of rational envelope (RE) surfaces. Although these surfaces are parametrized w...
We continue the study of rational envelope (RE) surfaces. Although these surfaces are parametrized w...
Minkowski Pythagorean hodograph (MPH) curves provide a means for representing domains with rational ...
Minkowski Pythagorean hodograph (MPH) curves provide a means for representing domains with rational ...
In this paper we will continue in investigating ‘contour method’ and its using for the computation o...
In this paper we will continue in investigating ‘contour method’ and its using for the computation o...
The rational ruled surface is a typical modeling surface in computer aided geometric design. A rati...
The rational ruled surface is a typical modeling surface in computer aided geometric design. A rati...
We provide algorithms to reconstruct rational ruled surfaces in three-dimensional projective space ...
MOS surfaces are rational surfaces in R3,1 which possess rational en-velopes of the associated two-p...