Add to ORKGThe author presents a method for constructing platonic solids that takes advantage of their symmetry. This works well with a coordinate transform system, since symmetry is based on coordinate transformations. He treats the cube and other related shapes, using a seed-triangle element that can be rotated and reflected to generate the shape. He shows that the seed triangle can be replaced with any shape whatever, and all the replications will generate a result that also shares the symmetry of the cube. By making the seed shape rotate and move about in some random way, a changing shape that generates the 3-D kaleidoscope patterns of the title can be animated. The tetrahedron is also treated
Tiling the hyperbolic plane by iterated reflection in the sides of a kaleidoscopic polygon can be em...
We aim to reconstruct three-dimensional polyhedral solids from axonometric-like line sketches. A new...
Figure 1: The Planar Reflective Symmetry Transform captures the degree of symmetry of arbitrary shap...
The author presents a method for constructing platonic solids that takes advantage of their symmetry...
Platonic solids, Felix Klein, H.S.M. Coxeter and a flap of a swallowtail: The five Platonic solids t...
ÖZETÇok Yüzlüler: yüzeyleri çokgenlerden oluşan, 3 boyutlu geometride üzerinde çok çalışılmış çekici...
flap of a swallowtail: The five Platonic solids tetra-hedron, cube, octahedron, icosahedron and dode...
In this paper, we show how regular convex 4-polytopes – the analogues of the Platonic solids in four...
This paper shows how regular convex 4-polytopes – the analogues of the Platonic solids in four dimen...
In this paper we develop a novel method to generate a 3D geometrical model from 2D planer images. As...
The rotational symmetries of the Platonic solids are illustrated. Each face can be a different color...
The work explores the possibilities of making monolithic shape of the objects and their transformati...
Abstract We present a method for transforming a simple plane figure or motif into another, which is ...
International audienceConcept sketches, ubiquitously used in industrial design, are inherently impre...
AbstractThe geometry and symmetry characterizing the regular and semi-regular polyhedra has a major ...
Tiling the hyperbolic plane by iterated reflection in the sides of a kaleidoscopic polygon can be em...
We aim to reconstruct three-dimensional polyhedral solids from axonometric-like line sketches. A new...
Figure 1: The Planar Reflective Symmetry Transform captures the degree of symmetry of arbitrary shap...
The author presents a method for constructing platonic solids that takes advantage of their symmetry...
Platonic solids, Felix Klein, H.S.M. Coxeter and a flap of a swallowtail: The five Platonic solids t...
ÖZETÇok Yüzlüler: yüzeyleri çokgenlerden oluşan, 3 boyutlu geometride üzerinde çok çalışılmış çekici...
flap of a swallowtail: The five Platonic solids tetra-hedron, cube, octahedron, icosahedron and dode...
In this paper, we show how regular convex 4-polytopes – the analogues of the Platonic solids in four...
This paper shows how regular convex 4-polytopes – the analogues of the Platonic solids in four dimen...
In this paper we develop a novel method to generate a 3D geometrical model from 2D planer images. As...
The rotational symmetries of the Platonic solids are illustrated. Each face can be a different color...
The work explores the possibilities of making monolithic shape of the objects and their transformati...
Abstract We present a method for transforming a simple plane figure or motif into another, which is ...
International audienceConcept sketches, ubiquitously used in industrial design, are inherently impre...
AbstractThe geometry and symmetry characterizing the regular and semi-regular polyhedra has a major ...
Tiling the hyperbolic plane by iterated reflection in the sides of a kaleidoscopic polygon can be em...
We aim to reconstruct three-dimensional polyhedral solids from axonometric-like line sketches. A new...
Figure 1: The Planar Reflective Symmetry Transform captures the degree of symmetry of arbitrary shap...