Direct fitting of dynamic models using integrated nested Laplace approximations ?INLA

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• 作者：Ramiro Ruiz-Cá ; rdenas^a ; ^{ramiro@est.ufmg.br} ; ^{ramiro_rc1@yahoo.com.br} ; Elias T. Krainski^b ; ^{eliaskr@ufpr.br} ; Hå ; vard Rue^c ; ^{hrue@math.ntnu.no}
• 关键词：Approximate Bayesian inference ; State-space models ; Laplace approximation ; Augmented model ; Spatio-temporal dynamic models
• 刊名：Computational Statistics and Data Analysis
• 出版年：2012
• 出版时间：June, 2012
• 年：2012
• 卷：56
• 期：6
• 页码：1808-1828
• 全文大小：1403 K

文摘

Inference in state-space models usually relies on recursive forms for filtering and smoothing of the state vectors regarding the temporal structure of the observations, an assumption that is, from our view point, unnecessary if the dataset is fixed, that is, completely available before analysis. In this paper, we propose a computational framework to perform approximate full Bayesian inference in linear and generalized dynamic linear models based on the Integrated Nested Laplace Approximation (INLA) approach. The proposed framework directly approximates the posterior marginals of interest disregarding the assumption of recursive updating/estimation of the states and hyperparameters in the case of fixed datasets and, therefore, enable us to do fully Bayesian analysis of complex state-space models more easily and in a short computational time. The proposed framework overcomes some limitations of current tools in the dynamic modeling literature and is vastly illustrated with a series of simulated as well as well known real-life examples from the literature, including realistically complex models with correlated error structures and models with more than one state vector, being mutually dependent on each other. R code is available online for all the examples presented.