Abstract
Special issue PRIMA 2013 A coloring c of the vertices of a graph G is nonrepetitive if there exists no path v1v2\textellipsisv2l for which c(vi)=c(vl+i) for all 1<=i<=l. Given graphs G and H with |V(H)|=k, the lexicographic product G[H] is the graph obtained by substituting every vertex of G by a copy of H, and every edge of G by a copy of Kk,k. We prove that for a sufficiently long path P, a nonrepetitive coloring of P[Kk] needs at least 3k+&#x230A;k/2&#x230B; colors. If k>2 then we need exactly 2k+1 colors to nonrepetitively color P[Ek], where Ek is the empty graph on k vertices. If we further require that every copy of Ek be rainbow-colored and the path P is sufficiently long, then the smallest number of colors needed for P[Ek] is at least 3k+1 and at most 3k+&#x2308;k/2&#x2309;. Finally, we define fractional nonrepetitive colorings of graphs and consider the connections between this notion and the above results.
Highlights
A sequence x1 . . . x2l is a repetition if xi = xl+i for all 1 ≤ i ≤ l
Grytczuk, Hałuszczak, Riordan [2] generalized the notion of nonrepetitiveness to graph coloring: a coloring c of a graph G is nonrepetitive if there is no path v1, . . . , v2l in G such that the string c(v1), . . . , c(v2l) is a repetition
In this paper we are interested in nonrepetitive coloring of the lexicographic product of graphs
Summary
The Thue chromatic number of G is the least integer π(G) such that there exists a nonrepetitive coloring c of G. In this paper we are interested in nonrepetitive coloring of the lexicographic product of graphs. The lexicographic product of G and H is the graph G[H] with vertex set V1 × V2 and (v1, v2) is joined to (v1, v2) if either (v1, v1) ∈ E1 or v1 = v1 and (v2, v2) ∈ E2. The rainbow Thue chromatic number of G[H] is the least integer πR(G[H]) such that there exists a rainbow nonrepetitive coloring c of G[H] using πR(G[H]) colors. Non-repetitive colorings of the lexicographic product of graphs has not been studied systematically before. Our main results concentrate on the lexicographic product of paths with complete graphs or empty graphs. Theorem 1.4 For any integer n ≥ 28, 3k + k/2 ≤ π(Pn[Kk]) ≤ 4k
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