144 research outputs found
On Minimum Average Stretch Spanning Trees in Polygonal 2-trees
A spanning tree of an unweighted graph is a minimum average stretch spanning
tree if it minimizes the ratio of sum of the distances in the tree between the
end vertices of the graph edges and the number of graph edges. We consider the
problem of computing a minimum average stretch spanning tree in polygonal
2-trees, a super class of 2-connected outerplanar graphs. For a polygonal
2-tree on vertices, we present an algorithm to compute a minimum average
stretch spanning tree in time. This algorithm also finds a
minimum fundamental cycle basis in polygonal 2-trees.Comment: 17 pages, 12 figure
Minimum Cycle Base of Graphs Identified by Two Planar Graphs
In this paper, we study the minimum cycle base of the planar graphs obtained
from two 2-connected planar graphs by identifying an edge (or a cycle) of one graph with the corresponding edge (or cycle) of another, related with map geometries, i.e., Smarandache 2-dimensional manifolds
Ring graphs and complete intersection toric ideals
We study the family of graphs whose number of primitive cycles equals its
cycle rank. It is shown that this family is precisely the family of ring
graphs. Then we study the complete intersection property of toric ideals of
bipartite graphs and oriented graphs. An interesting application is that
complete intersection toric ideals of bipartite graphs correspond to ring
graphs and that these ideals are minimally generated by Groebner bases. We
prove that any graph can be oriented such that its toric ideal is a complete
intersection with a universal Groebner basis determined by the cycles. It turns
out that bipartite ring graphs are exactly the bipartite graphs that have
complete intersection toric ideals for any orientation.Comment: Discrete Math., to appea
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