Hengzhe Li, Xueliang Li, Yuefang Sun, Yan Zhao
Published 2012-03-14Version 1
An edge-colored graph $G$, where adjacent edges may have the same color, is {\it rainbow connected} if every two vertices of $G$ are connected by a path whose edge has distinct colors. A graph $G$ is {\it $k$-rainbow connected} if one can use $k$ colors to make $G$ rainbow connected. For integers $n$ and $d$ let $t(n,d)$ denote the minimum size (number of edges) in $k$-rainbow connected graphs of order $n$. Schiermeyer got some exact values and upper bounds for $t(n,d)$. However, he did not get a lower bound of $t(n,d)$ for $3\leq d<\lceil\frac{n}{2}\rceil $. In this paper, we improve his lower bound of $t(n,2)$, and get a lower bound of $t(n,d)$ for $3\leq d<\lceil\frac{n}{2}\rceil$.
Upper bounds involving parameter $σ_2$ for the rainbow connection
Sharp upper bound for the rainbow connection numbers of 2-connected graphs
A Lower Bound for the Number of Edges in a Graph Containing No Two Cycles of the Same Length
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