Minimax Rate-Optimal Estimation of Divergences between Discrete Distributions

Abstract

We study the minimax estimation of α-divergences between discrete distributions for integer α 1, which include the Kullback--Leibler divergence and the 2-divergences as special examples. Dropping the usual theoretical tricks to acquire independence, we construct the first minimax rate-optimal estimator which does not require any Poissonization, sample splitting, or explicit construction of approximating polynomials. The estimator uses a hybrid approach which solves a problem-independent linear program based on moment matching in the non-smooth regime, and applies a problem-dependent bias-corrected plug-in estimator in the smooth regime, with a soft decision boundary between these regimes.