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Factorization of moving-average spectral densities by state-space representations and stacking

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  • Li, Lei M.

Abstract

To factorize a spectral density matrix of a vector moving average process, we propose a state space representation. Although this state space is not necessarily of minimal dimension, its associated system matrices are simple and most matrix multiplications involved are nothing but index shifting. This greatly reduces the complexity of computation. Moreover, in this article we stack every q consecutive observations of the original process MA(q) and generate a vector MA(1) process. We consider a similar state space representation for the stacked process. Consequently, the solution hinges on a surprisingly compact discrete algebraic Riccati equation (DARE), which involves only one Toeplitz and one Hankel block matrix composed of autocovariance functions. One solution to this equation is given by the so-called iterative projection algorithm. Each iteration of the stacked version is equivalent to q iterations of the unstacked one. We show that the convergence behavior of the iterative projection algorithm is characterized by the decreasing rate of the partial correlation coefficients for the stacked process. In fact, the calculation of the partial correlation coefficients via the Whittle algorithm, which takes a very simple form in this case, offers another solution to the problem. To achieve computational efficiency, we apply the general Newton procedure given by Lancaster and Rodman to the DARE and obtain an algorithm of quadratic convergence rate. One immediate application of the new algorithms is polynomial stabilization. We also discuss various issues such as check of positivity and numerical implementation.

Suggested Citation

  • Li, Lei M., 2005. "Factorization of moving-average spectral densities by state-space representations and stacking," Journal of Multivariate Analysis, Elsevier, vol. 96(2), pages 425-438, October.
  • Handle: RePEc:eee:jmvana:v:96:y:2005:i:2:p:425-438
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    References listed on IDEAS

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    1. Wilson, G. Tunnicliffe, 1978. "A convergence theorem for spectral factorization," Journal of Multivariate Analysis, Elsevier, vol. 8(2), pages 222-232, June.
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    Cited by:

    1. Yuzo Hosoya & Taro Takimoto, 2010. "A numerical method for factorizing the rational spectral density matrix," Journal of Time Series Analysis, Wiley Blackwell, vol. 31(4), pages 229-240, July.
    2. Elmar Mertens, 2008. "Are Spectral Estimators Useful for Implementing Long-Run Restrictions in SVARs?," Working Papers 08.01, Swiss National Bank, Study Center Gerzensee.
    3. Stoica, Petre & Xu, Luzhou & Li, Jian & Xie, Yao, 2007. "Optimal correction of an indefinite estimated MA spectral density matrix," Statistics & Probability Letters, Elsevier, vol. 77(10), pages 973-980, June.
    4. Mertens, Elmar, 2012. "Are spectral estimators useful for long-run restrictions in SVARs?," Journal of Economic Dynamics and Control, Elsevier, vol. 36(12), pages 1831-1844.

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