Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
420325 | Discrete Applied Mathematics | 2011 | 8 Pages |
We present a collection of new structural, algorithmic, and complexity results for matching problems of two types. The first problem involves the computation of kk-maximal matchings, where a matching is kk-maximal if it admits no augmenting path with ≤2k≤2k vertices. The second involves finding a maximal set of vertices that is matchable — comprising one side of the edges in some matching. Among our results, we prove that the minimum cardinality β2β2 of a 2-maximal matching is at most the minimum cardinality μμ of a maximal matchable set, with equality attained for triangle-free graphs. We show that the parameters β2β2 and μμ are NP-hard to compute in bipartite and chordal graphs, but can be computed in linear time on a tree. Finally, we also give a simple linear-time algorithm for finding a 3-maximal matching, a consequence of which is a simple linear-time 3/43/4-approximation algorithm for the maximum-cardinality matching problem in a general graph.