AbstractWe show that testing if an undirected graph contains a bridgeless spanning cactus is NP-hard. As a consequence, the minimum spanning cactus problem (MSCP) on an undirected graph with 0–1 edge weights is NP-hard. For any subgraph S of Kn, we give polynomially testable necessary and sufficient conditions for S to be extendable to a cactus in Kn and the weighted version of this problem is shown to be NP-hard. A spanning tree is shown to be extendable to a cactus in Kn if and only if it has at least one node of even degree. When S is a spanning tree, we show that the weighted version can also be solved in polynomial time. Further, we give an O(n3) algorithm for computing a minimum cost spanning tree with at least one vertex of even degr...
The full degree spanning tree problem is defined as follows: given a connected graph $G=(V,E)$ find ...
AbstractGiven a graph with k⩾2 different nonnegative weights associated with each edge e and a cost ...
We prove that the NP-hard problem of finding in an undirected graph G a spanning tree with a maximum...
AbstractWe show that testing if an undirected graph contains a bridgeless spanning cactus is NP-hard...
AbstractIn this paper we study the complexity of finding a spanning cactus in various graphs. First,...
We prove that the problem of finding, in an undirected graph with non-negative costs on edges, a min...
In the spanning tree congestion problem, given a connected graph $G$, the objective is to compute a ...
AbstractWe consider the minimum spanning tree problem with conflict constraints (MSTC). The problem ...
This paper is part of a work in progress whose goal is to construct a fast, practical algorithm for ...
We introduce and study the general problem of finding a most "scale-free-like" spanning tree of a co...
AbstractWe consider the problem of finding a spanning tree with maximum number of leaves. A 2-approx...
AbstractIn this paper several results are proved: (1) Deciding whether a given planar graph G with m...
AbstractWe study the approximability of some problems which aim at finding spanning trees in undirec...
AbstractIn this paper we present some new results concerning the classification of undirected spanni...
: We consider the problem of constructing a spanning tree for a graph G = (V, E) with n vertices an...
The full degree spanning tree problem is defined as follows: given a connected graph $G=(V,E)$ find ...
AbstractGiven a graph with k⩾2 different nonnegative weights associated with each edge e and a cost ...
We prove that the NP-hard problem of finding in an undirected graph G a spanning tree with a maximum...
AbstractWe show that testing if an undirected graph contains a bridgeless spanning cactus is NP-hard...
AbstractIn this paper we study the complexity of finding a spanning cactus in various graphs. First,...
We prove that the problem of finding, in an undirected graph with non-negative costs on edges, a min...
In the spanning tree congestion problem, given a connected graph $G$, the objective is to compute a ...
AbstractWe consider the minimum spanning tree problem with conflict constraints (MSTC). The problem ...
This paper is part of a work in progress whose goal is to construct a fast, practical algorithm for ...
We introduce and study the general problem of finding a most "scale-free-like" spanning tree of a co...
AbstractWe consider the problem of finding a spanning tree with maximum number of leaves. A 2-approx...
AbstractIn this paper several results are proved: (1) Deciding whether a given planar graph G with m...
AbstractWe study the approximability of some problems which aim at finding spanning trees in undirec...
AbstractIn this paper we present some new results concerning the classification of undirected spanni...
: We consider the problem of constructing a spanning tree for a graph G = (V, E) with n vertices an...
The full degree spanning tree problem is defined as follows: given a connected graph $G=(V,E)$ find ...
AbstractGiven a graph with k⩾2 different nonnegative weights associated with each edge e and a cost ...
We prove that the NP-hard problem of finding in an undirected graph G a spanning tree with a maximum...