Coloring fuzzy circular interval graphs

Given a graph G with nonnegative node labels w, a multiset of stable sets S_1,...,S_k\subseteq V(G) such that each vertex v \in V(G) is contained in w(v) many of these stable sets is called a weighted coloring. The weighted coloring number \chi_w(G) is the smallest k such that there exist stable sets as above. We provide a polynomial time combinatorial algorithm that computes the weighted coloring number and the corresponding colorings for fuzzy circular interval graphs. The algorithm reduces the problem to the case of circular interval graphs, then making use of a coloring algorithm by Gijswijt. We also show that the stable set polytopes of fuzzy circular interval graphs have the integer decomposition property.

Coloring fuzzy circular interval graphs

Graph Chatbot

Results on Sparse Integer Programming and Geometric Independent Sets

ON THE INDEPENDENCE NUMBER OF INTERSECTION GRAPHS OF AXIS-PARALLEL SEGMENTS

Random walks and forbidden minors III: poly(d epsilon(-1))-time partition oracles for minor-free graph classes

Results on Sparse Integer Programming and Geometric Independent Sets

ON THE INDEPENDENCE NUMBER OF INTERSECTION GRAPHS OF AXIS-PARALLEL SEGMENTS

Random walks and forbidden minors III: poly(d epsilon(-1))-time partition oracles for minor-free graph classes