Jean-Sébastien Sereni, Zelealem B. Yilma (2013)
Discussiones Mathematicae Graph Theory
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We provide a tight bound on the set chromatic number of a graph in terms of its chromatic number. Namely, for all graphs G, we show that χs(G) > ⌈log2 χ(G)⌉ + 1, where χs(G) and χ(G) are the set chromatic number and the chromatic number of G, respectively. This answers in the affirmative a conjecture of Gera, Okamoto, Rasmussen and Zhang.
Axenovich, Maria (2003)
The Electronic Journal of Combinatorics [electronic only]
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Evelyne Flandrin, Hao Li, Antoni Marczyk, Jean-François Saclé, Mariusz Woźniak (2017)
Discussiones Mathematicae Graph Theory
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A total k-coloring of a graph G is a coloring of vertices and edges of G using colors of the set [k] = {1, . . . , k}. These colors can be used to distinguish the vertices of G. There are many possibilities of such a distinction. In this paper, we consider the sum of colors on incident edges and adjacent vertices.
Axenovich, Maria, Martin, Ryan (2008)
The Electronic Journal of Combinatorics [electronic only]
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Poppy Immel, Paul S. Wenger (2017)
Discussiones Mathematicae Graph Theory
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A distinguishing coloring of a graph G is a coloring of the vertices so that every nontrivial automorphism of G maps some vertex to a vertex with a different color. The distinguishing number of G is the minimum k such that G has a distinguishing coloring where each vertex is assigned a color from {1, . . . , k}. A list assignment to G is an assignment L = {L(v)}v∈V (G) of lists of colors to the vertices of G. A distinguishing L-coloring of G is a distinguishing coloring of G where the...
Axenovich, Maria (2006)
The Electronic Journal of Combinatorics [electronic only]
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Yuster, Raphael (2006)
The Electronic Journal of Combinatorics [electronic only]
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Sylwia Cichacz, Jakub Przybyło (2010)
Discussiones Mathematicae Graph Theory
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In the PhD thesis by Burris (Memphis (1993)), a conjecture was made concerning the number of colors c(G) required to edge-color a simple graph G so that no two distinct vertices are incident to the same multiset of colors. We find the exact value of c(G) - the irregular coloring number, and hence verify the conjecture when G is a vertex-disjoint union of paths. We also investigate the point-distinguishing chromatic index, χ₀(G), where sets, instead of multisets, are required to be distinct,...
Gyárfás, András, Sárközy, Gábor N., Szemerédi, Endre (2008)
The Electronic Journal of Combinatorics [electronic only]
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Alexander Halperin, Colton Magnant, Kyle Pula (2014)
Discussiones Mathematicae Graph Theory
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An edge-colored cycle is rainbow if its edges are colored with distinct colors. A Gallai (multi)graph is a simple, complete, edge-colored (multi)graph lacking rainbow triangles. As has been previously shown for Gallai graphs, we show that Gallai multigraphs admit a simple iterative construction. We then use this structure to prove Ramsey-type results within Gallai colorings. Moreover, we show that Gallai multigraphs give rise to a surprising and highly structured decomposition into directed...
Caro, Yair, Yuster, Raphael (2003)
The Electronic Journal of Combinatorics [electronic only]
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Chen, Ailian, Zhang, Fuji, Li, Hao (2008)
The Electronic Journal of Combinatorics [electronic only]
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Alishahi, Meysam, Taherkhani, Ali, Thomassen, Carsten (2011)
The Electronic Journal of Combinatorics [electronic only]
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Collins, Karen L., Trenk, Ann N. (2006)
The Electronic Journal of Combinatorics [electronic only]
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