Test of Bivariate Independence Based on Angular Probability Integral Transform with Emphasis on Circular-Circular and Circular-Linear Data
Abstract
The probability integral transform (PIT) of a continuous random variable with distribution function is a uniformly distributed random variable . We define the angular probability integral transform (APIT) as , which corresponds to a uniformly distributed angle on the unit circle. For circular (angular) random variables, the sum of absolutely continuous independent circular uniform random variables is a circular uniform random variable, that is, the circular uniform distribution is closed under summation, and it is a stable continuous distribution on the unit circle. If we consider the sum (difference) of the angular probability integral transforms of two random variables, and , and test for the circular uniformity of their sum (difference), this is equivalent to the test of independence of the original variables. In this study, we used a flexible family of nonnegative trigonometric sums (NNTS) circular distributions, which include the uniform circular distribution as a member of the family, to evaluate the power of the proposed independence test; we complete this evaluation by generating samples from NNTS alternative distributions that may be at a closer proximity with respect to the circular uniform null distribution.
Cite
@article{arxiv.2301.02991,
title = {Test of Bivariate Independence Based on Angular Probability Integral Transform with Emphasis on Circular-Circular and Circular-Linear Data},
author = {Fernández-Durán and J. J. and Gregorio-Domínguez and M. M},
journal= {arXiv preprint arXiv:2301.02991},
year = {2025}
}
Comments
29 pages, 2 figures