In this paper, we give a number of new exact algorithms and heuristics to compute linear boolean decompositions, and experimentally evaluate these algorithms. The experimental evaluation shows that significant improvements can be made with respect to running time without increasing the width of the generated decompositions. We also evaluated dynamic programming algorithms on linear boolean decompositions for several vertex subset problems. This evaluation shows that such algorithms are often much faster (up to several orders of magnitude) compared to theoretical worst case bounds
Linear programming (LP) and semidefinite programming (SDP) are among the most important tools in Ope...
This paper presents a new method for evaluating boolean set operations between Binary Space Partitio...
Branch & Reduce and dynamic programming on graphs of bounded treewidth are among the most common...
In this paper, we give a number of new exact algorithms and heuristics to compute linear boolean dec...
In this paper, we give a number of new exact algorithms and heuristics to compute linear boolean dec...
In this paper, we give a number of new exact algorithms and heuristics to compute linear boolean dec...
Boolean-width is a recently introduced graph parameter. Many problems are fixed param-eter tractable...
The main focus of this thesis is on using the divide and conquer technique to efficiently solve grap...
Abstract. We introduce the graph parameter boolean-width, related to the number of different unions ...
AbstractThe basic algorithm of pseudo-Boolean programming due to Hammer and Rudeanu allows to minimi...
We study implementation details for dynamic programming over tree decompositions. Firstly, a fact th...
AbstractWe introduce the graph parameter boolean-width, related to the number of different unions of...
International audienceA linear pseudo-Boolean constraint (LPB) is an expression of the form a_1 l_1...
Pseudo-Boolean problems lie on the border between satisfiability problems, constraint programming, a...
We described a simple algorithm running in linear time for each xed constant k, that either establis...
Linear programming (LP) and semidefinite programming (SDP) are among the most important tools in Ope...
This paper presents a new method for evaluating boolean set operations between Binary Space Partitio...
Branch & Reduce and dynamic programming on graphs of bounded treewidth are among the most common...
In this paper, we give a number of new exact algorithms and heuristics to compute linear boolean dec...
In this paper, we give a number of new exact algorithms and heuristics to compute linear boolean dec...
In this paper, we give a number of new exact algorithms and heuristics to compute linear boolean dec...
Boolean-width is a recently introduced graph parameter. Many problems are fixed param-eter tractable...
The main focus of this thesis is on using the divide and conquer technique to efficiently solve grap...
Abstract. We introduce the graph parameter boolean-width, related to the number of different unions ...
AbstractThe basic algorithm of pseudo-Boolean programming due to Hammer and Rudeanu allows to minimi...
We study implementation details for dynamic programming over tree decompositions. Firstly, a fact th...
AbstractWe introduce the graph parameter boolean-width, related to the number of different unions of...
International audienceA linear pseudo-Boolean constraint (LPB) is an expression of the form a_1 l_1...
Pseudo-Boolean problems lie on the border between satisfiability problems, constraint programming, a...
We described a simple algorithm running in linear time for each xed constant k, that either establis...
Linear programming (LP) and semidefinite programming (SDP) are among the most important tools in Ope...
This paper presents a new method for evaluating boolean set operations between Binary Space Partitio...
Branch & Reduce and dynamic programming on graphs of bounded treewidth are among the most common...