Partitionability, coverability and colorability in graphs
Partitionability, coverability and colorability in graphs
Nos recherches traitent de coloration de graphes avec des contraintes de distance (coloration de packing) ou des contraintes sur le voisinage (coloration de Grundy). Soit S={si| i in N*} une série croissante d’entiers. Une S -coloration de packing est une coloration propre de sommets telle que tout ensemble coloré i est un si-packing (un ensemble où tous les sommets sont à distance mutuelle supérieure à si). Un graphe G est (s1,... ,sk)-colorable si il existe une S -coloration de packing de G avec les couleurs 1, ...,,k. Une coloration de Grundy est une coloration propre de sommets telle que pour tout sommet u coloré i, u est adjacent à un sommet coloré j, pour chaque ji. Ces résultats nous permettent de déterminer des S-colorations de packings de ces grilles pour plusieurs séries d’entiers. Nous examinons une classe de graphe jamais étudiée en ce qui concerne la S -coloration de packing: les graphes subcubiques. Nous déterminons que tous les graphes subcubiques sont (1,2,2,2,2,2,2)-colorables et (1,1,2,2,3)-colorables. Un certain nombre de résultats sont prouvés pour certaines sous-classes des graphes subcubiques. Pour finir, nous nous intéressons au nombre de Grundy des graphes réguliers. Nous déterminons une caractérisation des graphes cubiques avec un nombre de Grundy de 4. De plus, nous prouvons que tous les graphes r-réguliers sans carré induit ont pour nombre de Grundy de r+1, pour r<5.
Our research are about graph coloring with distance constraints (packing coloring) or neighborhood constraints (Grundy coloring). Let S={si| i in N*} be a non decreasing sequence of integers. An S-packing coloring is a proper coloring such that every set of color i is an si-packing (a set of vertices at pairwise distance greater than si). A graph G is (s1,... ,sk)-colorable if there exists a packing coloring of G with colors 1,... ,k. A Grundy coloring is a proper vertex coloring such that for every vertex of color i, u is adjacent to a vertex of color j, for each ji. These results allow us to determine S-packing coloring of these lattices for several sequences of integers. We examine a class of graph that has never been studied for S-packing coloring: the subcubic graphs. We determine that every subcubic graph is (1,2,2,2,2,2,2)-colorable and (1,1,2,2,3)-colorable. Few results are proven about some subclasses. Finally, we study the Grundy number of regular graphs. We determine a characterization of the cubic graphs with Grundy number 4. Moreover, we prove that every r-regular graph without induced square has Grundy number r+1, for r<5.
- French National Centre for Scientific Research France
- Arts et Métiers ParisTech France
- University of Burgundy France
- Agrosup Dijon France
- Arts et Métiers Institute of Technology France
S-coloration de packing, Distance, Coloration de Grundy, Packing coloring, Lattic, Domination, Graph, Coloration de packing, Computational complexity, Parameterized complexity, [INFO.INFO-DM] Computer Science [cs]/Discrete Mathematics [cs.DM], Graphe, Coloration, Combinatorics, Regular graph, Coloring, Grundy coloring, Graphe régulier, S -packing coloring, Complexité paramétrée, Complexité algorithmique
S-coloration de packing, Distance, Coloration de Grundy, Packing coloring, Lattic, Domination, Graph, Coloration de packing, Computational complexity, Parameterized complexity, [INFO.INFO-DM] Computer Science [cs]/Discrete Mathematics [cs.DM], Graphe, Coloration, Combinatorics, Regular graph, Coloring, Grundy coloring, Graphe régulier, S -packing coloring, Complexité paramétrée, Complexité algorithmique
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