Author :
Wu, Yihong ; Verdú, Sergio
Author_Institution :
Dept. of Electr. Eng., Princeton Univ., Princeton, NJ, USA
Abstract :
If N is standard Gaussian, the minimum mean square error (MMSE) of estimating a random variable X based on √(snr) X + N vanishes at least as fast as 1/snr as snr → ∞. We define the MMSE dimension of X as the limit as snr → ∞ of the product of snr and the MMSE. MMSE dimension is also shown to be the asymptotic ratio of nonlinear MMSE to linear MMSE. For discrete, absolutely continuous or mixed distribution we show that MMSE dimension equals Rényi´s information dimension. However, for a class of self-similar singular X (e.g., Cantor dis tribution), we show that the product of snr and MMSE oscillates around information dimension periodically in snr (dB). We also show that these results extend considerably beyond Gaussian noise under various technical conditions.
Keywords :
Gaussian noise; least mean squares methods; signal processing; Gaussian noise; Renyi information dimension; asymptotic ratio; linear MMSE dimension; minimum mean square error estimation; nonlinear MMSE dimension; standard Gaussian process; Bayesian methods; Entropy; Estimation; Gaussian noise; Mutual information; Random variables; Additive noise; Bayesian statistics; Gaussian noise; Rényi information dimension; high-SNR asymptotics; minimum mean-square error (MMSE); mutual information; non-Gaussian noise;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2011.2158905
