Title :
Local Pinsker Inequalities via Stein´s Discrete Density Approach
Author :
Ley, Christophe ; Swan, Yvik
Author_Institution :
Dept. de Math., Univ. libre de Bruxelles, Brussels, Belgium
Abstract :
Pinsker´s inequality states that the relative entropy between two random variables X and Y dominates the square of the total variation distance between X and Y. In this paper, we introduce generalized Fisher information distances and prove that these also dominate the square of the total variation distance. To this end, we introduce a general discrete Stein operator for which we prove a useful covariance identity. We illustrate our approach with several examples. Whenever competitor inequalities are available in the literature, the constants in ours are at least as good, and, in several cases, better.
Keywords :
probability; Stein discrete density approach; general discrete Stein operator; generalized Fisher information; local Pinsker inequalities; probability distribution; total variation distance; Approximation methods; Cramer-Rao bounds; Entropy; Equations; Measurement; Random variables; Standards; Discrete density approach; Pinsker inequality; Poisson approximation; Stein characterizations; scaled Fisher information; total variation distance;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2013.2265392
