Title of article :
Coloring hypercomplete and hyperpath graphs
Author/Authors :
CİVAN, YUSUF Suleyman Demirel University - Department of Mathematics, Turkey , TAYLAN, DEMET Bozok University - Department of Mathematics, Turkey
From page :
1
To page :
15
Abstract :
Given a graph G with an induced subgraph H and a family F of graphs, we introduce a (hyper)graph HH (G; F ) = (VH , EH ) , the hyper - H (hyper)graph of G with respect to F , whose vertices are induced copies of H in G , and {H1, H2, . . . , Hr } ∈ EH if and only if the induced subgraph of G by the set ∪r i =1Hi is isomorphic to a graph F in the family F, and the integer r is the least integer for F with this property. When H is a k -complete or a k -path of G , we abbreviate HKk (G; F ) and HPk (G; F ) to Hk (G; F ) and HPk (G; F ) , respectively. Our motivation to introduce this new (hyper)graph operator on graphs comes from the fact that the graph Hk (Kn; {K2k }) is isomorphic to the ordinary Kneser graph K(n; k) whenever 2k ≤ n . As a generalization of the Lov´asz–Kneser theorem, we prove that χ(Hk (G; {K2k })) = χ(G) − 2k + 2 for any graph G with ω(G) = χ(G) and any integer k ≤ [ω(G)/2]. We determine the clique and fractional chromatic numbers of Hk (G; {K2k }) , and we consider the generalized Johnson graphs Hr (H; {Kr+1}) and show that χ(Hr (H; {Kr+1})) ≤ χ(H) for any graph H and any integer r ω(H). By way of application, we construct examples of graphs such that the gap between their chromatic and fractional chromatic numbers is arbitrarily large. We further analyze the chromatic number of hyperpath (hyper)graphs HPk (G; Pm) , and we provide upper bounds when m = k + 1 and m = 2k in terms of the k -distance chromatic number of the source graph.
Keywords :
Kneser graphs and hypergraphs , chromatic and fractional chromatic numbers , hypercomplete and hyperpath (hyper)graphs
Journal title :
Turkish Journal of Mathematics
Journal title :
Turkish Journal of Mathematics
Record number :
2531439
Link To Document :
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