Dynamic Graph Coloring


الملخص بالإنكليزية

In this paper we study the number of vertex recolorings that an algorithm needs to perform in order to maintain a proper coloring of a graph under insertion and deletion of vertices and edges. We present two algorithms that achieve different trade-offs between the number of recolorings and the number of colors used. For any $d>0$, the first algorithm maintains a proper $O(mathcal{C} d N^{1/d})$-coloring while recoloring at most $O(d)$ vertices per update, where $mathcal{C}$ and $N$ are the maximum chromatic number and maximum number of vertices, respectively. The second algorithm reverses the trade-off, maintaining an $O(mathcal{C} d)$-coloring with $O(d N^{1/d})$ recolorings per update. The two converge when $d = log N$, maintaining an $O(mathcal{C} log N)$-coloring with $O(log N)$ recolorings per update. We also present a lower bound, showing that any algorithm that maintains a $c$-coloring of a $2$-colorable graph on $N$ vertices must recolor at least $Omega(N^frac{2}{c(c-1)})$ vertices per update, for any constant $c geq 2$.

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