English

k-Tuple_Total_Domination_in_Inflated_Graphs

Combinatorics 2018-08-14 v1

Abstract

The inflated graph GIG_{I} of a graph GG with n(G)n(G) vertices is obtained from GG by replacing every vertex of degree dd of GG by a clique, which is isomorph to the complete graph KdK_{d}, and each edge (xi,xj)(x_{i},x_{j}) of GG is replaced by an edge (u,v)(u,v) in such a way that uXiu\in X_{i}, vXjv\in X_{j}, and two different edges of GG are replaced by non-adjacent edges of GIG_{I}. For integer k1k\geq 1, the kk-tuple total domination number γ×k,t(G)\gamma_{\times k,t}(G) of GG is the minimum cardinality of a kk-tuple total dominating set of GG, which is a set of vertices in GG such that every vertex of GG is adjacent to at least kk vertices in it. For existing this number, must the minimum degree of GG is at least kk. Here, we study the kk-tuple total domination number in inflated graphs when k2k\geq 2. First we prove that n(G)kγ×k,t(GI)n(G)(k+1)1n(G)k\leq \gamma_{\times k,t}(G_{I})\leq n(G)(k+1)-1, and then we characterize graphs GG that the kk-tuple total domination number number of GIG_I is n(G)kn(G)k or n(G)k+1n(G)k+1. Then we find bounds for this number in the inflated graph GIG_I, when GG has a cut-edge ee or cut-vertex vv, in terms on the kk-tuple total domination number of the inflated graphs of the components of GeG-e or vv-components of GvG-v, respectively. Finally, we calculate this number in the inflated graphs that have obtained by some of the known graphs.

Keywords

Cite

@article{arxiv.1105.2404,
  title  = {k-Tuple_Total_Domination_in_Inflated_Graphs},
  author = {Adel P. Kazemi},
  journal= {arXiv preprint arXiv:1105.2404},
  year   = {2018}
}
R2 v1 2026-06-21T18:06:11.415Z