AbstractThis paper deals with the complexity of the decomposition of a digital surface into digital plane segments (DPSs for short). We prove that the decision problem (does there exist a decomposition with less than λ DPSs?) is NP-complete, and thus that the optimization problem (finding the minimum number of DPSs) is NP-hard. The proof is based on a polynomial reduction of any instance of the well-known 3-SAT problem to an instance of the digital surface decomposition problem. A geometric model for the 3-SAT problem is proposed
Abstract. This paper is composed of two parts. In the first one, we present an analysis of existing ...
There are many problems in computational geometry for which the best know algorithms take time (n2) ...
The inherent computational complexity of polygon decomposition problems is of importance in the fiel...
International audienceThis paper deals with the complexity of the decomposition of a digital surface...
International audienceThis paper deals with the complexity of the decomposition of a digital surface...
Abstract. This paper deals with the complexity of the decomposition of a digital surface into digita...
AbstractThis paper deals with the complexity of the decomposition of a digital surface into digital ...
Motivated by applications in computer graphics, visualization, and scientific computation, we study ...
International audienceA naive digital plane is a subset of points $(x,y,z) \in \mathbb{Z} ^3$ verify...
Rapport interne.A naive digital plane with integer coefficients is a subset of points (x,y,z) in Z^3...
International audienceWe show that the plane-probing algorithms introduced in Lachaud et al. (J. Mat...
International audienceThis paper is composed of two parts. In the first one, we present an analysis ...
We prove that computing a geometric minimum-dilation graph on a given set of points in the plane, us...
Our purpose here is to study problems involving geometric optimization, namely, questions of the ty...
We show that the complexity of the vertical decomposition of an arrangement of n fixeddegree algebra...
Abstract. This paper is composed of two parts. In the first one, we present an analysis of existing ...
There are many problems in computational geometry for which the best know algorithms take time (n2) ...
The inherent computational complexity of polygon decomposition problems is of importance in the fiel...
International audienceThis paper deals with the complexity of the decomposition of a digital surface...
International audienceThis paper deals with the complexity of the decomposition of a digital surface...
Abstract. This paper deals with the complexity of the decomposition of a digital surface into digita...
AbstractThis paper deals with the complexity of the decomposition of a digital surface into digital ...
Motivated by applications in computer graphics, visualization, and scientific computation, we study ...
International audienceA naive digital plane is a subset of points $(x,y,z) \in \mathbb{Z} ^3$ verify...
Rapport interne.A naive digital plane with integer coefficients is a subset of points (x,y,z) in Z^3...
International audienceWe show that the plane-probing algorithms introduced in Lachaud et al. (J. Mat...
International audienceThis paper is composed of two parts. In the first one, we present an analysis ...
We prove that computing a geometric minimum-dilation graph on a given set of points in the plane, us...
Our purpose here is to study problems involving geometric optimization, namely, questions of the ty...
We show that the complexity of the vertical decomposition of an arrangement of n fixeddegree algebra...
Abstract. This paper is composed of two parts. In the first one, we present an analysis of existing ...
There are many problems in computational geometry for which the best know algorithms take time (n2) ...
The inherent computational complexity of polygon decomposition problems is of importance in the fiel...