A time-domain test for some types of nonlinearity


Autoria(s): Barnett, A. G.; Wolff, R. C.
Data(s)

01/01/2005

Resumo

The bispectrum and third-order moment can be viewed as equivalent tools for testing for the presence of nonlinearity in stationary time series. This is because the bispectrum is the Fourier transform of the third-order moment. An advantage of the bispectrum is that its estimator comprises terms that are asymptotically independent at distinct bifrequencies under the null hypothesis of linearity. An advantage of the third-order moment is that its values in any subset of joint lags can be used in the test, whereas when using the bispectrum the entire (or truncated) third-order moment is required to construct the Fourier transform. In this paper, we propose a test for nonlinearity based upon the estimated third-order moment. We use the phase scrambling bootstrap method to give a nonparametric estimate of the variance of our test statistic under the null hypothesis. Using a simulation study, we demonstrate that the test obtains its target significance level, with large power, when compared to an existing standard parametric test that uses the bispectrum. Further we show how the proposed test can be used to identify the source of nonlinearity due to interactions at specific frequencies. We also investigate implications for heuristic diagnosis of nonstationarity.

Identificador

http://espace.library.uq.edu.au/view/UQ:76409

Idioma(s)

eng

Publicador

IEEE - Inst Electrical Electronics Engineers Inc

Palavras-Chave #Bispectrum #Bootstrap #Nonlinear #Nonstationary #Phase Scrambling #Third-order Moment #Time Series #Computer Science, Hardware & Architecture #Engineering, Electrical & Electronic #Surrogate Data #C1 #230204 Applied Statistics #780101 Mathematical sciences
Tipo

Journal Article