Bayesian Computing with INLA: A Review

Bayesian Computing with INLA: A Review

The key operation in Bayesian inference is to compute high-dimensional integrals. An old approximate technique is the Laplace method or approximation, which dates back to Pierre-Simon Laplace (1774). This simple idea approximates the integrand with a second-order Taylor expansion around the mode and...

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Veröffentlicht in:Annual review of statistics and its application 2017-03, Vol.4 (1), p.395-421
Hauptverfasser: Rue, Håvard, Riebler, Andrea, Sørbye, Sigrunn H, Illian, Janine B, Simpson, Daniel P, Lindgren, Finn K
Format: Artikel
Sprache:eng
Schlagworte:
approximate Bayesian inference
Gaussian Markov random fields
Laplace approximations
latent Gaussian models
Matematikk og Naturvitenskap: 400
Matematikk: 410
Mathematics and natural science: 400
Mathematics: 410
numerical integration
sparse matrices
Statistics: 412
Statistikk: 412
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Zusammenfassung:The key operation in Bayesian inference is to compute high-dimensional integrals. An old approximate technique is the Laplace method or approximation, which dates back to Pierre-Simon Laplace (1774). This simple idea approximates the integrand with a second-order Taylor expansion around the mode and computes the integral analytically. By developing a nested version of this classical idea, combined with modern numerical techniques for sparse matrices, we obtain the approach of integrated nested Laplace approximations (INLA) to do approximate Bayesian inference for latent Gaussian models (LGMs). LGMs represent an important model abstraction for Bayesian inference and include a large proportion of the statistical models used today. In this review, we discuss the reasons for the success of the INLA approach, the R-INLA package, why it is so accurate, why the approximations are very quick to compute, and why LGMs make such a useful concept for Bayesian computing.
ISSN:2326-8298
2326-831X
2326-831X
DOI:10.1146/annurev-statistics-060116-054045