In the online version of the well-known graph coloring problem, the vertices appear one after the other together with the edges to the already known vertices and have to be irrevocably colored immediately after their appearance. We consider this problem on bipartite, i.e., two-colorable graphs. We prove that 1.13747·log 2 n colors are necessary for any deterministic online algorithm to color any bipartite graph on n vertices, thus improving on the previously known lower bound of log 2 n + 1 for sufficiently large n. Recently, the advice complexity was introduced as a method for a fine-grained analysis of the hardness of online problems. We apply this method to the online coloring problem and prove (almost) tight linear upper and lower bounds on the advice complexity of coloring a bipartite graph online optimally or using 3 colors. Moreover, we prove that O(√n) advice bits are sufficient for coloring any graph on n vertices with at most ⌈log 2 n⌉ colors. © 2012 Springer-Verlag.
CITATION STYLE
Bianchi, M. P., Böckenhauer, H. J., Hromkovič, J., & Keller, L. (2012). Online coloring of bipartite graphs with and without advice. In Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) (Vol. 7434 LNCS, pp. 519–530). https://doi.org/10.1007/978-3-642-32241-9_44
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