Abstract
Current methods of estimation of the univariate spectral density are reviewed and some improvements are made. It is suggested that spectral analysis may perhaps be best thought of as another exploratory data analysis (EDA) tool which complements, rather than competes with, the popular ARMA model building approach. A new diagnostic check for ARMA model adequacy based on the nonparametric spectral density is introduced. Additionally, two new algorithms for fast computation of the autoregressive spectral density function are presented. For improving interpretation of results, a new style of plotting the spectral density function is suggested. Exploratory spectral analyses of a number of hydrological time series are performed and some interesting periodicities are suggested for further investigation. The application of spectral analysis to determine the possible existence of long memory in natural time series is discussed with respect to long riverflow, treering and mud varve series. Moreover, a comparison of the estimated spectral densities suggests the ARMA models fitted previously to these datasets adequately describe the low frequency component. Finally, the software and data used in this paper are available by anonymous ftp from fisher.stats.uwo.ca.
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References
Akaike, H. 1979: A Bayesian extension of the minimum AIC procedure of autoregressive model fitting. Biometrika 66(2), 237–242
Barnard, G.A. 1956: Discussion on Methods of using long term storage in reservoirs. Proc. Inst. Civil Eng. 1, 552–553
Beran, J. 1992: Statistical methods for data with long-range dependence. Statistical Science 7(4), 404–427
Bloomfield, P. 1976: Fourier Analysis of Time Series: An Introduction. New York: Wiley
Box, G.E.P.; Jenkins, G.M. 1976: Time series analysis: forecasting and control. (2nd edn). San Francisco: Holden-Day
Brillinger, D.R. 1981: Time series: data analysis and theory. Expanded Edition, San Francisco: Holden-Day
Brillinger, D.R.; Krishnaiah, P.R. 1983: Time series in the frequency domain. Amsterdam: North Holland
Cleveland, W.S. 1994: The elements of graphing data. Revised Edition, Summit: Hobart Press
Granger, C.W.J.; Joyeux, R. 1980: An introduction to long memory time series models and fractional differencing. Journal of Time Series Analysis 1(1), 15–29
Hamming, R.W. 1977: Digital filters. New Jersey: Prentice-Hall
Hannan, E.J. 1970: Multiple time series. New York: Wiley
Herglotz, G. 1911: Über potenzreihen mit positivem reellem teil im einheitskreis. Sitzgxber. Sachs Akad. Wiss. 63, 501–511
Hipel, K.W.; McLeod, A.I. 1978: Preservation of the rescaled adjusted range, 2, simulation studies using Box-Jenkins models, Water Resour. Res. 14(3), 509–516
Hipel, K.W.; McLeod, A.I. 1994: Time series modelling of water resources and environmental systems. Amsterdam: Elsevier
Hosking, J.R.M. 1981: Fractional differencing. Biometrika 68(1), 165–176
Mandelbrot, B.B.; Van Ness, J.W. 1968: Fractional Brownian motion, fractional noises and applications. SIAM Review 10(4), 422–437
Mandelbrot, B.B.; Wallis, J.R. 1969: Some long-run properties of geophysical records. Water Resour. Res. 5(2), 321–340
McLeod, A.I. 1977: Improved Box-Jenkins estimators. Biometrika 64(3), 531–534
Monro, D.M. 1976: Algorithm AS 97. Real discrete fast Fourier transform. Applied Statistics 25(2), 173–180
Percival, D.B.; Walden, A.T. 1993: Spectral Analysis for Physical Applications. Cambridge University Press
Priestley, M.B. 1981: Spectral analysis and time series. New York: Academic Press
Schuster, A. 1898: On the investigation of hidden periodicities with application to a supposed 26 day period of meteorological phenomena. Terr. Magn. 3, 13–41
Robinson, E.A. 1967: Multichannel time series analysis with digital computer programs. San Francisco: Holden-Day
Tukey, J. W. 1978: Comment on a paper by H.L. Gray et al. In: D.R. Brillinger (ed.) The collected works of John W. Tukey, Volume II, time series, pp. 1965–1984. The Monterey: Wadsworth
Wolfram, S. 1991: Mathematica: a system for doing mathematics by computer. (2nd edn). Redwood City: Addison-Wesley
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McLeod, A.I., Hipel, K.W. Exploratory spectral analysis of hydrological times series. Stochastic Hydrol Hydraul 9, 171–205 (1995). https://doi.org/10.1007/BF01581718
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DOI: https://doi.org/10.1007/BF01581718