Edge covering with budget constrains

Abstract

We study two related problems: finding a set of k vertices and minimum number of edges (kmin) and finding a graph with at least m' edges and minimum number of vertices (mvms). Goldschmidt and Hochbaum GH97 show that the mvms problem is NP-hard and they give a 3-approximation algorithm for the problem. We improve GH97 by giving a ratio of 2. A 2(1+ε)-approximation for the problem follows from the work of Carnes and Shmoys CS08. We improve the approximation ratio to 2. algorithm for the problem. We show that the natural LP for has an integrality gap of 2-o(1). We improve the NP-completeness of GH97 by proving the pronlem are APX-hard unless a well-known instance of the dense k-subgraph admits a constant ratio. The best approximation guarantee known for this instance of dense k-subgraph is O(n2/9) BCCFV. We show that for any constant >1, an approximation guarantee of for the problem implies a (1+o(1)) approximation for . Finally, we define we give an exact algorithm for the density version of kmin.