Provable guarantees for decision tree induction: the agnostic setting

Abstract

We give strengthened provable guarantees on the performance of widely employed and empirically successful top-down decision tree learning heuristics. While prior works have focused on the realizable setting, we consider the more realistic and challenging agnostic setting. We show that for all monotone functions~f and parameters s∈ N, these heuristics construct a decision tree of size sO(( s)/2) that achieves error opts + , where opts denotes the error of the optimal size-s decision tree for f. Previously, such a guarantee was not known to be achievable by any algorithm, even one that is not based on top-down heuristics. We complement our algorithmic guarantee with a near-matching s( s) lower bound.