38 research outputs found
Interval Routing Schemes for Circular-Arc Graphs
Interval routing is a space efficient method to realize a distributed routing
function. In this paper we show that every circular-arc graph allows a shortest
path strict 2-interval routing scheme, i.e., by introducing a global order on
the vertices and assigning at most two (strict) intervals in this order to the
ends of every edge allows to depict a routing function that implies exclusively
shortest paths. Since circular-arc graphs do not allow shortest path 1-interval
routing schemes in general, the result implies that the class of circular-arc
graphs has strict compactness 2, which was a hitherto open question.
Additionally, we show that the constructed 2-interval routing scheme is a
1-interval routing scheme with at most one additional interval assigned at each
vertex and we an outline algorithm to calculate the routing scheme for
circular-arc graphs in O(n^2) time, where n is the number of vertices.Comment: 17 pages, to appear in "International Journal of Foundations of
Computer Science
Oriented coloring on recursively defined digraphs
Coloring is one of the most famous problems in graph theory. The coloring
problem on undirected graphs has been well studied, whereas there are very few
results for coloring problems on directed graphs. An oriented k-coloring of an
oriented graph G=(V,A) is a partition of the vertex set V into k independent
sets such that all the arcs linking two of these subsets have the same
direction. The oriented chromatic number of an oriented graph G is the smallest
k such that G allows an oriented k-coloring. Deciding whether an acyclic
digraph allows an oriented 4-coloring is NP-hard. It follows, that finding the
chromatic number of an oriented graph is an NP-hard problem. This motivates to
consider the problem on oriented co-graphs. After giving several
characterizations for this graph class, we show a linear time algorithm which
computes an optimal oriented coloring for an oriented co-graph. We further
prove how the oriented chromatic number can be computed for the disjoint union
and order composition from the oriented chromatic number of the involved
oriented co-graphs. It turns out that within oriented co-graphs the oriented
chromatic number is equal to the length of a longest oriented path plus one. We
also show that the graph isomorphism problem on oriented co-graphs can be
solved in linear time.Comment: 14 page