Statistical tests based on Renyi entropy estimation
Abstract
Goodness-of-fit statistics for multivariate Student and Pearson type II distributions are developed using maximum entropy principles and Renyi entropy estimators based on nearest neighbor distances, with consistency and convergence properties analyzed through theoretical proofs and Monte Carlo simulations.
Entropy and its various generalizations are important in many fields, including mathematical statistics, communication theory, physics and computer science, for characterizing the amount of information associated with a probability distribution. In this paper we propose goodness-of-fit statistics for the multivariate Student and multivariate Pearson type II distributions, based on the maximum entropy principle and a class of estimators for Renyi entropy based on nearest neighbour distances. We prove the L2-consistency of these statistics using results on the subadditivity of Euclidean functionals on nearest neighbour graphs, and investigate their rate of convergence and asymptotic distribution using Monte Carlo methods.
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