Episciences.org TEI export of hal-00990613 - dmtcs:631 - Discrete Mathematics & Theoretical Computer Science, 2013-03-24, Vol. 15 no. 1

Episciences.org TEI export of hal-00990613 - dmtcs:631 - Discrete Mathematics & Theoretical Computer Science, 2013-03-24, Vol. 15 no. 1CCSDhttps://about.hal.science/hal-authorisation-v1

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The b-chromatic number of powers of cyclesAnjaKohl2011-05-16 00:00:002013-03-24 00:00:00contributorAlainMonteilalain.monteil@inria.frCCSDdmtcs:631https://dmtcs.episciences.org/631dmtcs:631 - Discrete Mathematics & Theoretical Computer Science, 2013-03-24, Vol. 15 no. 1https://about.hal.science/hal-authorisation-v1The b-chromatic number of powers of cyclesAnjaKohlhal-009906131365-8050Discrete Mathematics & Theoretical Computer ScienceVol. 15 no. 1Graph Theory2013-03-24T00:00:00+01:0010.46298/dmtcs.631English[INFO.INFO-DM]Computer Science [cs]/Discrete Mathematics [cs.DM]

Graph Theory

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A b-coloring of a graph G by k colors is a proper vertex coloring such that each color class contains a color-dominating vertex, that is, a vertex having neighbors in all other k-1 color classes. The b-chromatic number χb(G) is the maximum integer k for which G has a b-coloring by k colors. Let Cnr be the rth power of a cycle of order n. In 2003, Effantin and Kheddouci established the b-chromatic number χb(Cnr) for all values of n and r, except for 2r+3≤n≤3r. For the missing cases they presented the lower bound L:= min n-r-1,r+1+⌊ n-r-1 / 3⌋ and conjectured that χb(Cnr)=L. In this paper, we determine the exact value on χb(Cnr) for the missing cases. It turns out that χb(Cnr)>L for 2r+3≤n≤2r+3+r-6 / 4.

Faculty of Informatics/Mathematics [Dresden]