Abstract
Series models have several functions: comprehending the functional dependence of variable of interest on covariates, forecasting the dependent variable for future values of covariates and estimating variance disintegration, co-integration and steady-state relations. Although the regression function in a time series model has been extensively modeled both parametrically and nonparametrically, modeling of the error autocorrelation is mainly restricted to the parametric setup. A proper modeling of autocorrelation not only helps to reduce the bias in regression function estimate, but also enriches forecasting via a better forecast of the error term. In this article, we present a nonparametric modeling of autocorrelation function under a Bayesian framework. Moving into the frequency domain from the time domain, we introduce a Gaussian process prior to the log of the spectral density, which is then updated by using a Whittle approximation for the likelihood function (Whittle likelihood). The posterior computation is simplified due to the fact that Whittle likelihood is approximated by the likelihood of a normal mixture distribution with log-spectral density as a location shift parameter, where the mixture is of only five components with known means, variances, and mixture probabilities. The problem then becomes conjugate conditional on the mixture components, and a Gibbs sampler is used to initiate the unknown mixture components as latent variables. We present a simulation study for performance comparison, and apply our method to the two real data examples.
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References
Baillie RT, Kim KH (2015) Was it risk? Or was it fundamentals? Explaining excess currency returns with kernel smoothed regressions. J Empir Finance 34:99–111
Brockwell PJ, Davis RA (1991) Time series: theory and methods. Springer, New York
Carter CK, Kohn R (1997) Semiparametric Bayesian inference for time series with mixed spectra. J R Stat Soc B 59(1):255–268
Dickey DA, Fuller WA (1979) Distribution of the estimators for autoregressive time series with a unit root. J Am Stat Assoc 74:427–431
Fama E (1984) Forward and spot exchange rates. J Monet Econ 14:319–338
Geweke J, Amisano G (2008) Comparing and evaluating Bayesian predictive distributions of asset returns. Working paper series no. 969, European Central Bank
Hall P, Hart JD (1990) Nonparametric regression with long-range dependence. Stoch Process Appl 36:339–351
Härdle W (1990) Applied nonparametric regression. Cambridge University Press, Cambridge
Johnstone I, Silverman B (1997) Wavelet threshold estimators for data with correlated noise. J R Stat Assoc Ser B 1997(59):319–351
Kim KH, Kim T (2016) Capital asset pricing model: a time-varying volatility approach. J Empir Finance 37:268–281
Martins-Filho C, Yao F (2009) Nonparamteric regression estimation with general parametric error covariance. J Multivar Anal 2009(100):309–333
Perron P (1988) Trends and random walks in macroeconomic time series. J Econ Dyn Control 12:297–332
Robinson PM (1997) Large-sample inference for nonparametric regression with dependent errors. Ann Stat 25(5):2054–2083
Su L, Ullah A (2006) More efficient estimation in nonparametric regression with nonparametric autocorrelated errors. Econ Theory 22:98–126
Wang Y (1996) Function estimation via wavelet shrinkage for long-memory data. Ann Stat 24:466–484
Yang Y (2001) Nonparametric regression with dependent errors. Bernoulli 7(4):633–655
Whittle P (1954) On stationary processes in the plane. Biometrika 41:434–449
Acknowledgements
The authors would like to thank the reviewers and the editors who helped to substantially improve the paper. The authors are indebted to Dr. Nidhan Choudhuri for his continuous encouragement and support. K. H. Kim gratefully acknowledges Hanyang University research fund (HY-2016, HY-2017). C. Lim was supported by Research Resettlement Fund for the new faculty of Seoul National University. C. Lim was also supported by the National Research Foundation of Korea (NRF) Grant funded by the Korea government (MSIP) (No. 2016R1A2B4008237).
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Dey, T., Kim, K.H. & Lim, C.Y. Bayesian time series regression with nonparametric modeling of autocorrelation. Comput Stat 33, 1715–1731 (2018). https://doi.org/10.1007/s00180-018-0796-9
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DOI: https://doi.org/10.1007/s00180-018-0796-9