Quantized Estimation of Gaussian Sequence Models in Euclidean Balls

Add code
Sep 24, 2014
Yuancheng Zhu, John Lafferty
Figure 1 for Quantized Estimation of Gaussian Sequence Models in Euclidean Balls
Figure 2 for Quantized Estimation of Gaussian Sequence Models in Euclidean Balls
Figure 3 for Quantized Estimation of Gaussian Sequence Models in Euclidean Balls
Figure 4 for Quantized Estimation of Gaussian Sequence Models in Euclidean Balls

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon

A central result in statistical theory is Pinsker's theorem, which characterizes the minimax rate in the normal means model of nonparametric estimation. In this paper, we present an extension to Pinsker's theorem where estimation is carried out under storage or communication constraints. In particular, we place limits on the number of bits used to encode an estimator, and analyze the excess risk in terms of this constraint, the signal size, and the noise level. We give sharp upper and lower bounds for the case of a Euclidean ball, which establishes the Pareto-optimal minimax tradeoff between storage and risk in this setting.

* Appearing at NIPS 2014  
View paper onarxiv icon

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon