Deconvolution When Classifying Noisy Data Involving Transformations. Academic Article

abstract

• In the present study, we consider the problem of classifying spatial data distorted by a linear transformation or convolution and contaminated by additive random noise. In this setting, we show that classifier performance can be improved if we carefully invert the data before the classifier is applied. However, the inverse transformation is not constructed so as to recover the original signal, and in fact, we show that taking the latter approach is generally inadvisable. We introduce a fully data-driven procedure based on cross-validation, and use several classifiers to illustrate numerical properties of our approach. Theoretical arguments are given in support of our claims. Our procedure is applied to data generated by light detection and ranging (Lidar) technology, where we improve on earlier approaches to classifying aerosols. This article has supplementary materials online.

authors

• Carroll, Raymond

published proceedings

• J Am Stat Assoc

author list (cited authors)

• Carroll, R., Delaigle, A., & Hall, P.

citation count

• 4

complete list of authors

• Carroll, Raymond||Delaigle, Aurore||Hall, Peter

publication date

• September 2012

publisher

• Taylor & Francis  Publisher

published in

• JOURNAL OF THE AMERICAN STATISTICAL ASSOCIATION  Journal

keywords

• Centroid Classifier
• Cross-validation
• Fourier Transform
• Inverse Transform
• Spatial Data

PubMed Central ID

• 23606778

Digital Object Identifier (DOI)

• 10.1080/01621459.2012.699793

start page

• 1166

end page

• 1177

volume

• 107

issue

• 499

URL

• http%3A%2F%2Fdx.doi.org%2F10.1080%2F01621459.2012.699793