Title

Testing Normality Using Kernel Methods

Keywords

Asymptotic normality; Bandwidth selection; Independence; Kernel contrasts; Kernel methods; Monte Carlo methods; Power of tests; Testing normality

Abstract

Testing normality is one of the most studied areas in inference. Many methodologies have been proposed. Some are based on characterization of the normal variate, while most others are based on weaker properties of the normal. In this investigation, we propose a new procedure, which is based on the well-known characterization; if X1 and X2 are two independent copies of a variable with distribution F, then X1 and X2 are normal if and only if X1 - X2 and X1 + X2 are independent. If X1, ..., Xn is a random sample from F, we test that F is normal by testing nonparametrically that uii* = Xi - Xi* and vii* = Xi + Xi* are independent, i ≠ i* = 1, 2, ..., n. This procedure has several major advantages; it applies equally to one-dimensional or multi-dimensional cases, it does not require estimation of parameters, it does not require transformation to uniformity, it does not require use of special tables of coefficients, and it does have very good power requiring much less number of iterations to reach stable results.

Publication Date

6-1-2003

Publication Title

Journal of Nonparametric Statistics

Volume

15

Issue

3

Number of Pages

273-288

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1080/1048525021000049649

Socpus ID

0037633668 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/0037633668

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