Using structural geometric arguments, Whiteley showed that a line drawing is a correct projection of a spherical polyhedron if and only if it has a cross-section compatible with it. We here enlarge the class of drawings to which this test applies, including those of polyhedral disks, possibly with perforations. This extension is helpful, as it makes the test applicable to verify and reconstruct drawings from usual scenes with opaque objects. The presented results rely on geometric constructions, thus offering an alternative approach to line drawing interpretation, complementary to the algebraic-combinatorial treatment given in the classic work by Sugihara
This paper deals with line-drawings, obtained from images of piecewise planar objects after edge det...
We extend the concept of rectangular drawing to drawings on a sphere using meridians and circles of ...
Abstract. We aim to reconstruct three-dimensional polyhedral solids from axonometric-like line drawi...
This Thesis contributes with new algorithms for line drawing interpretation. A line drawing is a 2D...
AbstractMathematical structures of line drawings of polyhedral scenes are studied from the viewpoint...
The human vision system can interpret a single 2D line drawing as a 3D object without much difficult...
AbstractIn this paper we give simultaneous answers to three questions: (a) When does a plane picture...
Reconstructing the 3D object depicted in a line drawing consistent with human perception is an inter...
An algorithm is presented for removing hidden lines for isometric and perspective projections of thr...
Engineering design would be easier if a computer could interpret initial concept drawings. We outlin...
AbstractGiven a drawing of straight lines on the plane, we wish to decide whether it is the projecti...
Abstract—The human vision system can interpret a single 2D line drawing as a 3D object without much ...
A computational theory is developed that explains how line drawings of polyhedral objects can be in...
This paper deals with line-drawings, obtained from images of piecewise planar objects after edge det...
This project aims to investigate the theoretical and practical limitations of a geometric reconstruc...
This paper deals with line-drawings, obtained from images of piecewise planar objects after edge det...
We extend the concept of rectangular drawing to drawings on a sphere using meridians and circles of ...
Abstract. We aim to reconstruct three-dimensional polyhedral solids from axonometric-like line drawi...
This Thesis contributes with new algorithms for line drawing interpretation. A line drawing is a 2D...
AbstractMathematical structures of line drawings of polyhedral scenes are studied from the viewpoint...
The human vision system can interpret a single 2D line drawing as a 3D object without much difficult...
AbstractIn this paper we give simultaneous answers to three questions: (a) When does a plane picture...
Reconstructing the 3D object depicted in a line drawing consistent with human perception is an inter...
An algorithm is presented for removing hidden lines for isometric and perspective projections of thr...
Engineering design would be easier if a computer could interpret initial concept drawings. We outlin...
AbstractGiven a drawing of straight lines on the plane, we wish to decide whether it is the projecti...
Abstract—The human vision system can interpret a single 2D line drawing as a 3D object without much ...
A computational theory is developed that explains how line drawings of polyhedral objects can be in...
This paper deals with line-drawings, obtained from images of piecewise planar objects after edge det...
This project aims to investigate the theoretical and practical limitations of a geometric reconstruc...
This paper deals with line-drawings, obtained from images of piecewise planar objects after edge det...
We extend the concept of rectangular drawing to drawings on a sphere using meridians and circles of ...
Abstract. We aim to reconstruct three-dimensional polyhedral solids from axonometric-like line drawi...