Most of the proposals to compute the Euler number of a binary image have been designed to work with images composed of squared cells. Only a few of these methods (in the case of images composed of hexagonal cells) have been reported in literature, although it is known that images composed of hexagonal cells do not suffer from the problems of connectivity frequently found in the case of images composed of squared cells. In this paper, a new way to compute the Euler number (E) of a binary image composed of hexagonal cells is presented. For this, the perimeter P of the isolated regions in the image, their contact perimeter P c and the type T of a cell are used to obtain this important invariant. The proposal can be used alone or in combination...
Abstract. Fundamental properties of topological structure of a 3D digitized picture are presented in...
Two approaches for determining the Euler-Poincaré characteristic of a set observed on lattice points...
For well-composed (manifold) objects in the 3D cubical grid, the Euler characteristic is equal to ha...
Most of the proposals to compute the Euler number of a binary image have been designed to work with ...
In this paper an alternative way to compute the (E) Euler number of a binary image via information a...
The authors propose two equations based on the pixel geometry and connectivity properties, which can...
We describe a method to compute the Euler number of a binary digital image based on a codification o...
We describe a method to compute the Euler number of a binary digital image based on a codification o...
The topological properties of binary images are very useful features in the fields of pat-tern recog...
In this paper a new method to obtain the Euler number of a binary object via its skeleton is present...
We present an approach to compute the number of holes in binary images using the Vertex Chain Code (...
AbstractWe describe a method to compute the Euler number of a binary digital image based on a codifi...
AbstractWe present the computation of the Euler number of shapes using the contact perimeter. The co...
This paper introduces a novel morphological operator to calculate the Euler number for binary images...
Abstract-Aspects of topology and geometry are used in analyzing continuous and discrete binary image...
Abstract. Fundamental properties of topological structure of a 3D digitized picture are presented in...
Two approaches for determining the Euler-Poincaré characteristic of a set observed on lattice points...
For well-composed (manifold) objects in the 3D cubical grid, the Euler characteristic is equal to ha...
Most of the proposals to compute the Euler number of a binary image have been designed to work with ...
In this paper an alternative way to compute the (E) Euler number of a binary image via information a...
The authors propose two equations based on the pixel geometry and connectivity properties, which can...
We describe a method to compute the Euler number of a binary digital image based on a codification o...
We describe a method to compute the Euler number of a binary digital image based on a codification o...
The topological properties of binary images are very useful features in the fields of pat-tern recog...
In this paper a new method to obtain the Euler number of a binary object via its skeleton is present...
We present an approach to compute the number of holes in binary images using the Vertex Chain Code (...
AbstractWe describe a method to compute the Euler number of a binary digital image based on a codifi...
AbstractWe present the computation of the Euler number of shapes using the contact perimeter. The co...
This paper introduces a novel morphological operator to calculate the Euler number for binary images...
Abstract-Aspects of topology and geometry are used in analyzing continuous and discrete binary image...
Abstract. Fundamental properties of topological structure of a 3D digitized picture are presented in...
Two approaches for determining the Euler-Poincaré characteristic of a set observed on lattice points...
For well-composed (manifold) objects in the 3D cubical grid, the Euler characteristic is equal to ha...
Add to ORKG