Open Access
2018 An extended empirical saddlepoint approximation for intractable likelihoods
Matteo Fasiolo, Simon N. Wood, Florian Hartig, Mark V. Bravington
Electron. J. Statist. 12(1): 1544-1578 (2018). DOI: 10.1214/18-EJS1433

Abstract

The challenges posed by complex stochastic models used in computational ecology, biology and genetics have stimulated the development of approximate approaches to statistical inference. Here we focus on Synthetic Likelihood (SL), a procedure that reduces the observed and simulated data to a set of summary statistics, and quantifies the discrepancy between them through a synthetic likelihood function. SL requires little tuning, but it relies on the approximate normality of the summary statistics. We relax this assumption by proposing a novel, more flexible, density estimator: the Extended Empirical Saddlepoint approximation. In addition to proving the consistency of SL, under either the new or the Gaussian density estimator, we illustrate the method using three examples. One of these is a complex individual-based forest model for which SL offers one of the few practical possibilities for statistical inference. The examples show that the new density estimator is able to capture large departures from normality, while being scalable to high dimensions, and this in turn leads to more accurate parameter estimates, relative to the Gaussian alternative. The new density estimator is implemented by the esaddle R package, which is freely available on the Comprehensive R Archive Network (CRAN).

Citation

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Matteo Fasiolo. Simon N. Wood. Florian Hartig. Mark V. Bravington. "An extended empirical saddlepoint approximation for intractable likelihoods." Electron. J. Statist. 12 (1) 1544 - 1578, 2018. https://doi.org/10.1214/18-EJS1433

Information

Received: 1 June 2017; Published: 2018
First available in Project Euclid: 26 May 2018

zbMATH: 06875408
MathSciNet: MR3806432
Digital Object Identifier: 10.1214/18-EJS1433

Keywords: Density estimation , implicit statistical model , intractable likelihood , saddlepoint approximation , simulation-based inference , synthetic likelihood

Vol.12 • No. 1 • 2018
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