International audienceMinimal triangulations and potential maximal cliques are the main ingredients for a number of polynomial time algorithms on different graph classes computing the treewidth of a graph. Potential maximal cliques are also the main engine of the fastest so far, exact (exponential) treewidth algorithm. Based on the recent results of Mazoit, we define the structures that can be regarded as minimal triangulations and potential maximal cliques for branchwidth: efficient triangulations and blocks. We show how blocks can be used to construct an algorithm computing the branchwidth of a graph on n vertices in time (2√3)^n · n^O(1)
This work was also published as a Rice University thesis/dissertation: http://hdl.handle.net/1911/19...
A potential maximal clique of a graph is a vertex set that induces a maximal clique in some minimal ...
Many real-life problems can be modeled as optimization or decision problems on graphs. Also, many of...
International audienceMinimal triangulations and potential maximal cliques are the main ingredients ...
Minimal triangulations and potential maximal cliques are main ingredients for a number of polynomial...
AbstractThis paper revisits the ‘branchwidth territories’ of Kloks, Kratochvíl and Müller [T. Kloks,...
We adapt some decision theorems about treewidth to the branchwidth and use this theorems to prove th...
AbstractA potential maximal clique of a graph is a vertex set that induces a maximal clique in some ...
Potential maximal cliques and minimal separators are combinatorial objects which were introduced and...
Branchwidth is a connectivity parameter of graphs closely related to treewidth. Graphs of treewidth ...
The notions of branchwidth and branch-decomposition of graphs are introduced by Robertson and Seymou...
ManyNP-hard graph problems can be solved in polynomial time for graphs with bounded treewidth. Equiv...
AbstractWe construct a polynomial-time algorithm to approximate the branch-width of certain symmetri...
We propose efficient implementations of Seymour and Thomas algorithm which, given a planar graph and...
Many N/P-hard graph problems can be solved in polynomial time for graphs with bounded treewidth. Equ...
This work was also published as a Rice University thesis/dissertation: http://hdl.handle.net/1911/19...
A potential maximal clique of a graph is a vertex set that induces a maximal clique in some minimal ...
Many real-life problems can be modeled as optimization or decision problems on graphs. Also, many of...
International audienceMinimal triangulations and potential maximal cliques are the main ingredients ...
Minimal triangulations and potential maximal cliques are main ingredients for a number of polynomial...
AbstractThis paper revisits the ‘branchwidth territories’ of Kloks, Kratochvíl and Müller [T. Kloks,...
We adapt some decision theorems about treewidth to the branchwidth and use this theorems to prove th...
AbstractA potential maximal clique of a graph is a vertex set that induces a maximal clique in some ...
Potential maximal cliques and minimal separators are combinatorial objects which were introduced and...
Branchwidth is a connectivity parameter of graphs closely related to treewidth. Graphs of treewidth ...
The notions of branchwidth and branch-decomposition of graphs are introduced by Robertson and Seymou...
ManyNP-hard graph problems can be solved in polynomial time for graphs with bounded treewidth. Equiv...
AbstractWe construct a polynomial-time algorithm to approximate the branch-width of certain symmetri...
We propose efficient implementations of Seymour and Thomas algorithm which, given a planar graph and...
Many N/P-hard graph problems can be solved in polynomial time for graphs with bounded treewidth. Equ...
This work was also published as a Rice University thesis/dissertation: http://hdl.handle.net/1911/19...
A potential maximal clique of a graph is a vertex set that induces a maximal clique in some minimal ...
Many real-life problems can be modeled as optimization or decision problems on graphs. Also, many of...