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August 2017 Yule’s “nonsense correlation” solved!
Philip A. Ernst, Larry A. Shepp, Abraham J. Wyner
Ann. Statist. 45(4): 1789-1809 (August 2017). DOI: 10.1214/16-AOS1509

Abstract

In this paper, we resolve a longstanding open statistical problem. The problem is to mathematically prove Yule’s 1926 empirical finding of “nonsense correlation” [J. Roy. Statist. Soc. 89 (1926) 1–63], which we do by analytically determining the second moment of the empirical correlation coefficient \begin{eqnarray*}&&\theta:=\frac{\int_{0}^{1}W_{1}(t)W_{2}(t)\,dt-\int_{0}^{1}W_{1}(t)\,dt\int_{0}^{1}W_{2}(t)\,dt}{\sqrt{\int_{0}^{1}W^{2}_{1}(t)\,dt-(\int_{0}^{1}W_{1}(t)\,dt)^{2}}\sqrt{\int_{0}^{1}W^{2}_{2}(t)\,dt-(\int_{0}^{1}W_{2}(t)\,dt)^{2}}},\end{eqnarray*} of two independent Wiener processes, $W_{1},W_{2}$. Using tools from Fredholm integral equation theory, we successfully calculate the second moment of $\theta$ to obtain a value for the standard deviation of $\theta$ of nearly 0.5. The “nonsense” correlation, which we call “volatile” correlation, is volatile in the sense that its distribution is heavily dispersed and is frequently large in absolute value. It is induced because each Wiener process is “self-correlated” in time. This is because a Wiener process is an integral of pure noise, and thus its values at different time points are correlated. In addition to providing an explicit formula for the second moment of $\theta$, we offer implicit formulas for higher moments of $\theta$.

Citation

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Philip A. Ernst. Larry A. Shepp. Abraham J. Wyner. "Yule’s “nonsense correlation” solved!." Ann. Statist. 45 (4) 1789 - 1809, August 2017. https://doi.org/10.1214/16-AOS1509

Information

Received: 1 February 2016; Revised: 1 August 2016; Published: August 2017
First available in Project Euclid: 28 June 2017

zbMATH: 06773291
MathSciNet: MR3670196
Digital Object Identifier: 10.1214/16-AOS1509

Subjects:
Primary: 60G15 , 60J65
Secondary: 60G05

Keywords: integral equations , Volatile correlation , Wiener processes

Rights: Copyright © 2017 Institute of Mathematical Statistics

Vol.45 • No. 4 • August 2017
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