A 2-matching of a graph G is a spanning subgraph with maximum degree two. The size of a 2-matching U is the number of edges in U and this is at least n-k(U) where n is the number of vertices of G and κ denotes the number of components. In this article, we analyze the performance of a greedy algorithm 2greedy for finding a large 2-matching on a random 3-regular graph. We prove that with high probability, the algorithm outputs a 2-matching U with k(U)=Θ(n1/5)
We analyze the performance of a simple randomized algorithm for finding long cycles and 2-factors in...
A bipartite graph G(U,V;E) that admits a perfect matching is given. One player imposes a permutation...
AbstractWe describe a polynomial time (O(n3 log n)) algorithm which has a high probability of findin...
A 2-matching of a graph G is a spanning subgraph with maximum degree two. The size of a 2-matching U...
<p>A 2-matching of a graph G is a spanning subgraph with maximum degree two. The size of a 2-matchin...
AbstractWe present a heuristic for finding a large induced matching of cubic graphs. We analyse the ...
*Part of this author's work was completed during a sabbatical provided by Miami University. We ...
Given a graph G, it is well known that any maximal matching M in G is at least half the size of a ma...
We analyze the performance of a simple randomized algorithm for finding 2-factors in directed Hamilt...
AbstractFor i=2,3 and a cubic graph G let νi(G) denote the maximum number of edges that can be cover...
We consider the expected size of a smallest maximalmatching of cubic graphs. Firstly, we present a r...
Motivated by the fact that in several cases a matching in a graph is stable if and only if it is pro...
We study a special case of the configuration model, in which almost all the vertices of the graph ha...
AbstractWe present a simple, yet efficient, heuristic for finding a large 2-independent set of regul...
AbstractA 2-matching in a simple graph is a subset of edges such that every node of the graph is inc...
We analyze the performance of a simple randomized algorithm for finding long cycles and 2-factors in...
A bipartite graph G(U,V;E) that admits a perfect matching is given. One player imposes a permutation...
AbstractWe describe a polynomial time (O(n3 log n)) algorithm which has a high probability of findin...
A 2-matching of a graph G is a spanning subgraph with maximum degree two. The size of a 2-matching U...
<p>A 2-matching of a graph G is a spanning subgraph with maximum degree two. The size of a 2-matchin...
AbstractWe present a heuristic for finding a large induced matching of cubic graphs. We analyse the ...
*Part of this author's work was completed during a sabbatical provided by Miami University. We ...
Given a graph G, it is well known that any maximal matching M in G is at least half the size of a ma...
We analyze the performance of a simple randomized algorithm for finding 2-factors in directed Hamilt...
AbstractFor i=2,3 and a cubic graph G let νi(G) denote the maximum number of edges that can be cover...
We consider the expected size of a smallest maximalmatching of cubic graphs. Firstly, we present a r...
Motivated by the fact that in several cases a matching in a graph is stable if and only if it is pro...
We study a special case of the configuration model, in which almost all the vertices of the graph ha...
AbstractWe present a simple, yet efficient, heuristic for finding a large 2-independent set of regul...
AbstractA 2-matching in a simple graph is a subset of edges such that every node of the graph is inc...
We analyze the performance of a simple randomized algorithm for finding long cycles and 2-factors in...
A bipartite graph G(U,V;E) that admits a perfect matching is given. One player imposes a permutation...
AbstractWe describe a polynomial time (O(n3 log n)) algorithm which has a high probability of findin...