2,455 research outputs found
Packing Chromatic Number of Distance Graphs
The packing chromatic number of a graph is the smallest
integer such that vertices of can be partitioned into disjoint classes
where vertices in have pairwise distance greater than
. We study the packing chromatic number of infinite distance graphs , i.e. graphs with the set of integers as vertex set and in which two
distinct vertices are adjacent if and only if . In
this paper we focus on distance graphs with . We improve some
results of Togni who initiated the study. It is shown that for sufficiently large odd and
for sufficiently large even . We also give a lower bound 12 for
and tighten several gaps for with small .Comment: 13 pages, 3 figure
On Packing Colorings of Distance Graphs
The {\em packing chromatic number} of a graph is the
least integer for which there exists a mapping from to
such that any two vertices of color are at distance at
least . This paper studies the packing chromatic number of infinite
distance graphs , i.e. graphs with the set of
integers as vertex set, with two distinct vertices being
adjacent if and only if . We present lower and upper bounds for
, showing that for finite , the packing
chromatic number is finite. Our main result concerns distance graphs with
for which we prove some upper bounds on their packing chromatic
numbers, the smaller ones being for :
if is odd and
if is even
Subdivision into i-packings and S-packing chromatic number of some lattices
An -packing in a graph is a set of vertices at pairwise distance
greater than . For a nondecreasing sequence of integers
, the -packing chromatic number of a graph is
the least integer such that there exists a coloring of into colors
where each set of vertices colored , , is an -packing.
This paper describes various subdivisions of an -packing into -packings
(j\textgreater{}i) for the hexagonal, square and triangular lattices. These
results allow us to bound the -packing chromatic number for these graphs,
with more precise bounds and exact values for sequences ,
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