Line-Polar Graphs: Characterization and Recognition

Abstract

A graph is polar if its vertex set can be partitioned into and in such a way that induces a complete multipartite graph and induces a disjoint union of cliques (i.e., the complement of a complete multipartite graph). Polar graphs naturally generalize several classes of graphs such as bipartite, cobipartite, and split graphs. The problem of recognizing polar graphs is NP-complete in general. However, it has been shown to be polynomial for several classes of graphs, including cographs and chordal graphs. In this paper, we study the problem of recognizing graphs whose line graphs are polar. It turns out that the core part of this problem lies in determining whether the edge set of a graph admits a partition so that induces a -free subgraph (i.e., a matching) and induces a -free subgraph. We give a structural characterization of such graphs. The characterization enables us to devise an time algorithm to solve the stated recognition problem.