Displaying similar documents to “Fractional biclique covers and partitions of graphs.”

Generalized Fractional Total Colorings of Complete Graph

Gabriela Karafová (2013)

Discussiones Mathematicae Graph Theory

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An additive and hereditary property of graphs is a class of simple graphs which is closed under unions, subgraphs and isomorphism. Let P and Q be two additive and hereditary graph properties and let r, s be integers such that r ≥ s Then an [...] fractional (P,Q)-total coloring of a finite graph G = (V,E) is a mapping f, which assigns an s-element subset of the set {1, 2, . . . , r} to each vertex and each edge, moreover, for any color i all vertices of color i induce a subgraph of property...

Fractional Q-Edge-Coloring of Graphs

Július Czap, Peter Mihók (2013)

Discussiones Mathematicae Graph Theory

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An additive hereditary property of graphs is a class of simple graphs which is closed under unions, subgraphs and isomorphism. Let [...] be an additive hereditary property of graphs. A [...] -edge-coloring of a simple graph is an edge coloring in which the edges colored with the same color induce a subgraph of property [...] . In this paper we present some results on fractional [...] -edge-colorings. We determine the fractional [...] -edge chromatic number for matroidal properties of...

Generalized Fractional Total Colorings of Graphs

Gabriela Karafová, Roman Soták (2015)

Discussiones Mathematicae Graph Theory

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Let P and Q be additive and hereditary graph properties and let r, s be integers such that r ≥ s. Then an r/s -fractional (P,Q)-total coloring of a finite graph G = (V,E) is a mapping f, which assigns an s-element subset of the set {1, 2, . . . , r} to each vertex and each edge, moreover, for any color i all vertices of color i induce a subgraph with property P, all edges of color i induce a subgraph with property Q and vertices and incident edges have been assigned disjoint sets of...

Fractional (P,Q)-Total List Colorings of Graphs

Arnfried Kemnitz, Peter Mihók, Margit Voigt (2013)

Discussiones Mathematicae Graph Theory

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Let r, s ∈ N, r ≥ s, and P and Q be two additive and hereditary graph properties. A (P,Q)-total (r, s)-coloring of a graph G = (V,E) is a coloring of the vertices and edges of G by s-element subsets of Zr such that for each color i, 0 ≤ i ≤ r − 1, the vertices colored by subsets containing i induce a subgraph of G with property P, the edges colored by subsets containing i induce a subgraph of G with property Q, and color sets of incident vertices and edges are disjoint. The fractional...

Generalized Fractional and Circular Total Colorings of Graphs

Arnfried Kemnitz, Massimiliano Marangio, Peter Mihók, Janka Oravcová, Roman Soták (2015)

Discussiones Mathematicae Graph Theory

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Let P and Q be additive and hereditary graph properties, r, s ∈ N, r ≥ s, and [ℤr]s be the set of all s-element subsets of ℤr. An (r, s)-fractional (P,Q)-total coloring of G is an assignment h : V (G) ∪ E(G) → [ℤr]s such that for each i ∈ ℤr the following holds: the vertices of G whose color sets contain color i induce a subgraph of G with property P, edges with color sets containing color i induce a subgraph of G with property Q, and the color sets of incident vertices and edges are...

The non-crossing graph.

Linial, Nathan, Saks, Michael, Statter, David (2006)

The Electronic Journal of Combinatorics [electronic only]

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On the uniqueness of d-vertex magic constant

S. Arumugam, N. Kamatchi, G.R. Vijayakumar (2014)

Discussiones Mathematicae Graph Theory

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Let G = (V,E) be a graph of order n and let D ⊆ {0, 1, 2, 3, . . .}. For v ∈ V, let ND(v) = {u ∈ V : d(u, v) ∈ D}. The graph G is said to be D-vertex magic if there exists a bijection f : V (G) → {1, 2, . . . , n} such that for all v ∈ V, ∑uv∈ND(v) f(u) is a constant, called D-vertex magic constant. O’Neal and Slater have proved the uniqueness of the D-vertex magic constant by showing that it can be determined by the D-neighborhood fractional domination number of the graph. In this paper...

Track layouts of graphs.

Dujmović, Vida, Pór, Attila, Wood, David R. (2004)

Discrete Mathematics and Theoretical Computer Science. DMTCS [electronic only]

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