Graph transformations proved useful for many algorithmic problems. In the present paper, we study this tool with respect to the maximum stable set problem. We first review available results on this topic and then propose an approach to uniformly describe and systematically develop graph transformations that do not change the size of a maximum stable set in the graph. The approach is illustrated by a number of new transformations
AbstractSeveral applications of methods from nonlinear algebra to the stable set problem in graphs a...
Open ArchiveInternational audienceIn this note, we provide a new and simple algorithm to compute max...
AbstractWe provide two polynomial-time exact algorithms to compute a maximum stable set in graphs th...
Graph transformations proved useful for many algorithmic problems. In the present paper, we study th...
AbstractWe describe two classes of graphs for which the stability number can be computed in polynomi...
AbstractThe struction method is a general algorithm for finding the maximum-sized stable set in an u...
One approach to finding a maximum stable set (MSS) in a graph is to try to reduce the size of the pr...
We introduce a poly-time algorithm for the maximum weighted stable set problem, when a certain repre...
In this paper, we introduce two powerful graph reductions for the maximum weighted stable set (mwss)...
AbstractWe analyze the relations between several graph transformations that were introduced to be us...
AbstractWe introduce a new kind of graph transformations reducing the graph stability number by one....
We analyze the relations between several graph transformations that were introduced to be used in pr...
The Maximum Stable Set (MS) problem is a well known NP-hard problem. However different graph classes...
We describe a new branch-and-bound algorithm for the exact solution of the maximum cardinality stabl...
In this paper we study the 0-1 inverse maximum stable set problem, denoted by I S{0, 1}. Given a gra...
AbstractSeveral applications of methods from nonlinear algebra to the stable set problem in graphs a...
Open ArchiveInternational audienceIn this note, we provide a new and simple algorithm to compute max...
AbstractWe provide two polynomial-time exact algorithms to compute a maximum stable set in graphs th...
Graph transformations proved useful for many algorithmic problems. In the present paper, we study th...
AbstractWe describe two classes of graphs for which the stability number can be computed in polynomi...
AbstractThe struction method is a general algorithm for finding the maximum-sized stable set in an u...
One approach to finding a maximum stable set (MSS) in a graph is to try to reduce the size of the pr...
We introduce a poly-time algorithm for the maximum weighted stable set problem, when a certain repre...
In this paper, we introduce two powerful graph reductions for the maximum weighted stable set (mwss)...
AbstractWe analyze the relations between several graph transformations that were introduced to be us...
AbstractWe introduce a new kind of graph transformations reducing the graph stability number by one....
We analyze the relations between several graph transformations that were introduced to be used in pr...
The Maximum Stable Set (MS) problem is a well known NP-hard problem. However different graph classes...
We describe a new branch-and-bound algorithm for the exact solution of the maximum cardinality stabl...
In this paper we study the 0-1 inverse maximum stable set problem, denoted by I S{0, 1}. Given a gra...
AbstractSeveral applications of methods from nonlinear algebra to the stable set problem in graphs a...
Open ArchiveInternational audienceIn this note, we provide a new and simple algorithm to compute max...
AbstractWe provide two polynomial-time exact algorithms to compute a maximum stable set in graphs th...