$L_0$ regularized estimation for nonlinear models that have sparse underlying linear structures
Statistics Theory
2009-10-15 v1 Probability
Machine Learning
Statistics Theory
Abstract
We study the estimation of for the nonlinear model when is a nonlinear transformation that is known, has sparse nonzero coordinates, and the number of observations can be much smaller than that of parameters (). We show that in order to bound the error of the regularized estimator , i.e., , it is sufficient to establish two conditions. Based on this, we obtain bounds of the error for (1) regularized maximum likelihood estimation (MLE) for exponential linear models and (2) regularized least square (LS) regression for the more general case where is analytic. For the analytic case, we rely on power series expansion of , which requires taking into account the singularities of .
Cite
@article{arxiv.0910.2517,
title = {$L_0$ regularized estimation for nonlinear models that have sparse underlying linear structures},
author = {Zhiyi Chi},
journal= {arXiv preprint arXiv:0910.2517},
year = {2009}
}