265 research outputs found
Acyclic edge-coloring using entropy compression
An edge-coloring of a graph G is acyclic if it is a proper edge-coloring of G
and every cycle contains at least three colors. We prove that every graph with
maximum degree Delta has an acyclic edge-coloring with at most 4 Delta - 4
colors, improving the previous bound of 9.62 (Delta - 1). Our bound results
from the analysis of a very simple randomised procedure using the so-called
entropy compression method. We show that the expected running time of the
procedure is O(mn Delta^2 log Delta), where n and m are the number of vertices
and edges of G. Such a randomised procedure running in expected polynomial time
was only known to exist in the case where at least 16 Delta colors were
available. Our aim here is to make a pedagogic tutorial on how to use these
ideas to analyse a broad range of graph coloring problems. As an application,
also show that every graph with maximum degree Delta has a star coloring with 2
sqrt(2) Delta^{3/2} + Delta colors.Comment: 13 pages, revised versio
New Bounds for the Dichromatic Number of a Digraph
The chromatic number of a graph , denoted by , is the minimum
such that admits a -coloring of its vertex set in such a way that each
color class is an independent set (a set of pairwise non-adjacent vertices).
The dichromatic number of a digraph , denoted by , is the minimum
such that admits a -coloring of its vertex set in such a way that
each color class is acyclic.
In 1976, Bondy proved that the chromatic number of a digraph is at most
its circumference, the length of a longest cycle.
Given a digraph , we will construct three different graphs whose chromatic
numbers bound .
Moreover, we prove: i) for integers , and with and for each , that if all
cycles in have length modulo for some ,
then ; ii) if has girth and there are integers
and , with such that contains no cycle of length
modulo for each , then ;
iii) if has girth , the length of a shortest cycle, and circumference
, then , which improves,
substantially, the bound proposed by Bondy. Our results show that if we have
more information about the lengths of cycles in a digraph, then we can improve
the bounds for the dichromatic number known until now.Comment: 14 page
The 4-girth-thickness of the complete multipartite graph
The -girth-thickness of a graph is the smallest number
of planar subgraphs of girth at least whose union is . In this paper, we
calculate the -girth-thickness of the complete -partite
graph when each part has an even number of vertices.Comment: 6 pages, 1 figur
Digraphs and homomorphisms: Cores, colorings, and constructions
A natural digraph analogue of the graph-theoretic concept of an `independent set\u27 is that of an acyclic set, namely a set of vertices not spanning a directed cycle. Hence a digraph analogue of a graph coloring is a decomposition of the vertex set into acyclic sets
- …