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A0414
Title: Copula approximate Bayesian computation using distribution random forests Authors:  George Karabatsos - University of Illinois-Chicago (United States) [presenting]
Abstract: A novel approximate Bayesian computation (ABC) framework is introduced for estimating the posterior distribution and the maximum likelihood estimate (MLE) of the parameters of models defined by intractable likelihood functions. This framework can describe the possibly skewed and high dimensional posterior distribution by a novel multivariate copula-based distribution based on univariate marginal posterior distributions, which can account for skewness and be accurately estimated by distribution random forests (DRF) while performing automatic summary statistics (covariates) selection, and on robustly estimated copula dependence parameters. The framework employs a novel multivariate mode estimator to perform MLE and posterior mode estimation and provides an optional step to perform model selection from a given set of models with posterior probabilities estimated by DRF. The posterior distribution estimation accuracy of the ABC framework is illustrated through simulation studies involving models with analytically computable posterior distributions and exponential random graph and mechanistic network models, each defined by an intractable likelihood from which it is costly to simulate large network datasets. Also, the framework is illustrated through analyses of large real-life networks of sizes ranging between 28,000 to 65.6 million nodes (between 3 million to 1.8 billion edges), including a large multilayer network with weighted, directed edges.