Abstract
Abstract A solution to multivariate state-space modeling, forecasting, and smoothing is discussed. We allow for the possibilities of nonnormal errors and nonlinear functionals in the state equation, the observational equation, or both. An adaptive Monte Carlo integration technique known as the Gibbs sampler is proposed as a mechanism for implementing a conceptually and computationally simple solution in such a framework. The methodology is a general strategy for obtaining marginal posterior densities of coefficients in the model or of any of the unknown elements of the state space. Missing data problems (including the k-step ahead prediction problem) also are easily incorporated into this framework. We illustrate the broad applicability of our approach with two examples: a problem involving nonnormal error distributions in a linear model setting and a one-step ahead prediction problem in a situation where both the state and observational equations are nonlinear and involve unknown parameters.
Keywords
SmoothingMonte Carlo methodApplied mathematicsNonlinear systemState spaceMathematical optimizationMathematicsMultivariate statisticsComputer scienceMonte Carlo integrationAlgorithmHybrid Monte CarloMarkov chain Monte CarloStatistics
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Publication Info
- Year
- 1992
- Type
- article
- Volume
- 87
- Issue
- 418
- Pages
- 493-500
- Citations
- 541
- Access
- Closed
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Cite This
Bradley P. Carlin,
Nicholas G. Polson,
David S. Stoffer
(1992).
A Monte Carlo Approach to Nonnormal and Nonlinear State-Space Modeling.
Journal of the American Statistical Association
, 87
(418)
, 493-500.
https://doi.org/10.1080/01621459.1992.10475231
Identifiers
- DOI
- 10.1080/01621459.1992.10475231