Parameterized and Approximation Complexity of Partial VC Dimension

Abstract

We introduce the problem Partial VC Dimension that asks, given a hypergraph H=(X,E) and integers k and , whether one can select a set C⊂eq X of k vertices of H such that the set \e C, e∈ E\ of distinct hyperedge-intersections with C has size at least . The sets e C define equivalence classes over E. Partial VC Dimension is a generalization of VC Dimension, which corresponds to the case =2k, and of Distinguishing Transversal, which corresponds to the case =|E| (the latter is also known as Test Cover in the dual hypergraph). We also introduce the associated fixed-cardinality maximization problem Max Partial VC Dimension that aims at maximizing the number of equivalence classes induced by a solution set of k vertices. We study the algorithmic complexity of Partial VC Dimension and Max Partial VC Dimension both on general hypergraphs and on more restricted instances, in particular, neighborhood hypergraphs of graphs.