A Design-Adaptive Local Polynomial Estimator for the Errors-in-Variables Problem. Academic Article

abstract

• Local polynomial estimators are popular techniques for nonparametric regression estimation and have received great attention in the literature. Their simplest version, the local constant estimator, can be easily extended to the errors-in-variables context by exploiting its similarity with the deconvolution kernel density estimator. The generalization of the higher order versions of the estimator, however, is not straightforward and has remained an open problem for the last 15 years. We propose an innovative local polynomial estimator of any order in the errors-in-variables context, derive its design-adaptive asymptotic properties and study its finite sample performance on simulated examples. We provide not only a solution to a long-standing open problem, but also provide methodological contributions to error-invariable regression, including local polynomial estimation of derivative functions.

authors

• Carroll, Raymond

published proceedings

• J Am Stat Assoc

author list (cited authors)

• Delaigle, A., Fan, J., & Carroll, R. J.

citation count

• 68

complete list of authors

• Delaigle, Aurore||Fan, Jianqing||Carroll, Raymond J

publication date

• March 2009

publisher

• Taylor & Francis  Publisher

published in

• JOURNAL OF THE AMERICAN STATISTICAL ASSOCIATION  Journal

keywords

• Bandwidth Selector
• Deconvolution
• Inverse Problems
• Local Polynomial
• Measurement Errors
• Nonparametric Regression
• Replicated Measurements

PubMed Central ID

• 20351800

Digital Object Identifier (DOI)

• 10.1198/jasa.2009.0114

start page

• 348

end page

• 359

volume

• 104

issue

• 485

URL

• http://dx.doi.org/10.1198/jasa.2009.0114