DMGT

Discussiones Mathematicae Graph Theory 24(3) (2004) 503-507
DOI: https://doi.org/10.7151/dmgt.1248

GRAPHS WITHOUT INDUCED P_5 AND C_5

Gabor Bacsó and Zsolt Tuza

Computer and Automation Institute
Hungarian Academy of Sciences
1111 Budapest, Kende u. 13-17, Hungary

Abstract

Zverovich [Discuss. Math. Graph Theory 23 (2003), 159-162.] has proved that the domination number and connected domination number are equal on all connected graphs without induced P₅ and C₅. Here we show (with an independent proof) that the following stronger result is also valid: Every P₅-free and C₅-free connected graph contains a minimum-size dominating set that induces a complete subgraph.

Keywords: graph domination, connected domination, complete subgraph, forbidden induced subgraph, characterization.

2000 Mathematics Subject Classification: 05C69.

References

[1]	G. Bacsó and Zs. Tuza, Dominating cliques in P₅-free graphs, Periodica Math. Hungar. 21 (1990) 303-308, doi: 10.1007/BF02352694.
[2]	G. Bacsó and Zs. Tuza, Structural domination of graphs, Ars Combinatoria 63 (2002) 235-256.
[3]	F.R.K. Chung, A. Gyárfás, W.T. Trotter and Zs. Tuza, The maximum number of edges in 2K₂-free graphs of bounded degree, Discrete Math. 81 (1990) 129-135, doi: 10.1016/0012-365X(90)90144-7.
[4]	M.B. Cozzens and L.L. Kelleher, Dominating cliques in graphs, Discrete Math. 86 (1990) 101-116, doi: 10.1016/0012-365X(90)90353-J.
[5]	W. Goddard and M.A. Henning, Total domination perfect graphs, to appear in Bull. ICA.
[6]	I.E. Zverovich, Perfect connected-dominant graphs, Discuss. Math. Graph Theory 23 (2003) 159-162, doi: 10.7151/dmgt.1192.

Received 21 July 2003
Revised 5 February 2004