Local dimension reduction of summary statistics for likelihood-free inference

Research output: Contribution to journalArticle

Researchers

Research units

  • Helsinki Institute for Information Technology HIIT

Abstract

Approximate Bayesian computation (ABC) and other likelihood-free inference methods have gained popularity in the last decade, as they allow rigorous statistical inference for complex models without analytically tractable likelihood functions. A key component for accurate inference with ABC is the choice of summary statistics, which summarize the information in the data, but at the same time should be low-dimensional for efficiency. Several dimension reduction techniques have been introduced to automatically construct informative and low-dimensional summaries from a possibly large pool of candidate summaries. Projection-based methods, which are based on learning simple functional relationships from the summaries to parameters, are widely used and usually perform well, but might fail when the assumptions behind the transformation are not satisfied. We introduce a localization strategy for any projection-based dimension reduction method, in which the transformation is estimated in the neighborhood of the observed data instead of the whole space. Localization strategies have been suggested before, but the performance of the transformed summaries outside the local neighborhood has not been guaranteed. In our localization approach the transformation is validated and optimized over validation datasets, ensuring reliable performance. We demonstrate the improvement in the estimation accuracy for localized versions of linear regression and partial least squares, for three different models of varying complexity.

Details

Original languageEnglish
Number of pages12
JournalSTATISTICS AND COMPUTING
Publication statusPublished - 4 Oct 2019
MoE publication typeA1 Journal article-refereed

    Research areas

  • Approximate Bayesian computation, Dimension reduction, Likelihood-free inference, Summary statistics, APPROXIMATE BAYESIAN COMPUTATION, SELECTION

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