On probe 2-clique graphs and probe diamond-free graphs

Bonomo, Flavia; Figueiredo, Celina M. H. de; Duran, Guillermo Alfredo; Grippo, Luciano Norberto; Safe, Martin Dario; Szwarcfiter, Jayme L.

info:eu-repo/semantics/article

Fecha

2015-03

Registro en:

Bonomo, Flavia; Figueiredo, Celina M. H. de; Duran, Guillermo Alfredo; Grippo, Luciano Norberto; Safe, Martin Dario; et al.; On probe 2-clique graphs and probe diamond-free graphs; Chapman & Hall; Discrete Mathematics and Theoretical Computer Science; 17; 1; 3-2015; 187-200

1365-8050

http://hdl.handle.net/11336/21313

CONICET Digital

CONICET

Autor

Bonomo, Flavia

Figueiredo, Celina M. H. de

Duran, Guillermo Alfredo

Grippo, Luciano Norberto

Safe, Martin Dario

Szwarcfiter, Jayme L.

Institución

Consejo Nacional de Investigaciones Científicas y Tecnológicas (Argentina)

Resumen

Given a class G of graphs, probe G graphs are defined as follows. A graph G is probe G if there exists a partition of its vertices into a set of probe vertices and a stable set of nonprobe vertices in such a way that non-edges of G, whose endpoints are nonprobe vertices, can be added so that the resulting graph belongs to G. We investigate probe 2-clique graphs and probe diamond-free graphs. For probe 2-clique graphs, we present a polynomial-time recognition algorithm. Probe diamond-free graphs are characterized by minimal forbidden induced subgraphs. As a by-product, it is proved that the class of probe block graphs is the intersection between the classes of chordal graphs and probe diamond-free graphs.