1. Exploring the Depths of the Autocorrelation Function: Its Departure from Normality
- Author
-
Hossein Hassani, Manuela Royer-Carenzi, Leila Marvian Mashhad, Masoud Yarmohammadi, and Mohammad Reza Yeganegi
- Subjects
autocorrelation function (ACF) ,time series analysis ,white noise ,normality tests ,Ljung–Box test ,Box–Pierce test ,Information technology ,T58.5-58.64 - Abstract
In this article, we study the autocorrelation function (ACF), which is a crucial element in time series analysis. We compare the distribution of the ACF, both from a theoretical and empirical point of view. We focus on white noise processes (WN), i.e., uncorrelated, centered, and identically distributed variables, whose ACFs are supposed to be asymptotically independent and converge towards the same normal distribution. But, the study of the sum of the sample ACF contradicts this property. Thus, our findings reveal a deviation of the sample ACF from normality beyond a specific lag. Note that this phenomenon is observed for white noise of varying lengths, and evenforn the residuals of an ARMA(p,q) model. This discovery challenges traditional assumptions of normality in time series modeling. Indeed, when modeling a time series, the crucial step is to validate the estimated model by checking that the associated residuals form white noise. In this study, we show that the widely used portmanteau tests are not completely accurate. Box–Pierce appears to be too conservative, whereas Ljung–Box is too liberal. We suggest an alternative method based on the ACF for establishing the reliability of the portmanteau test and the validity of the estimated model. We illustrate our methodology using money stock data in the USA.
- Published
- 2024
- Full Text
- View/download PDF