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# Summary statistics and discrepancy measures for ABC via surrogate posteriors

Abstract : A key ingredient in approximate Bayesian computation (ABC) procedures is the choice of a discrepancy that describes how different the simulated and observed data are, often based on a set of summary statistics when the data cannot be compared directly. Unless discrepancies and summaries are available from experts or prior knowledge, which seldom occurs, they have to be chosen, and thus their choice can affect the quality of approximations. The choice between discrepancies is an active research topic, which has mainly considered data discrepancies requiring samples of observations or distances between summary statistics. In this work, we introduce a preliminary learning step in which surrogate posteriors are built from finite Gaussian mixtures using an inverse regression approach. These surrogate posteriors are then used in place of summary statistics and compared using metrics between distributions in place of data discrepancies. Two such metrics are investigated: a standard L$_2$ distance and an optimal transport-based distance. The whole procedure can be seen as an extension of the semi-automatic ABC framework to a functional summary statistics setting and can also be used as an alternative to sample-based approaches. The resulting ABC quasi-posterior distribution is shown to converge to the true one, under standard conditions. Performance is illustrated on both synthetic and real data sets, where it is shown that our approach is particularly useful when the posterior is multimodal.
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Journal articles
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https://hal.archives-ouvertes.fr/hal-03139256
Contributor : Florence Forbes Connect in order to contact the contributor
Submitted on : Sunday, September 25, 2022 - 9:14:35 AM
Last modification on : Friday, December 2, 2022 - 5:40:53 PM

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Gllim-ABC_STCO-Rev2.pdf
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### Citation

Florence Forbes, Hien Duy Nguyen, Trung Tin Nguyen, Julyan Arbel. Summary statistics and discrepancy measures for ABC via surrogate posteriors. Statistics and Computing, 2022, 32 (85), ⟨10.1007/s11222-022-10155-6⟩. ⟨hal-03139256v5⟩

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