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Efficient Bayesian Inference for Generalized Bradley-Terry Models

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arxiv 1011.1761 v1 pith:LRDUJOXC submitted 2010-11-08 stat.ME stat.COstat.ML

Efficient Bayesian Inference for Generalized Bradley-Terry Models

classification stat.ME stat.COstat.ML
keywords algorithmsbayesianbradley-terryinferencemodelsapplicationscomparisonsefficient
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The Bradley-Terry model is a popular approach to describe probabilities of the possible outcomes when elements of a set are repeatedly compared with one another in pairs. It has found many applications including animal behaviour, chess ranking and multiclass classification. Numerous extensions of the basic model have also been proposed in the literature including models with ties, multiple comparisons, group comparisons and random graphs. From a computational point of view, Hunter (2004) has proposed efficient iterative MM (minorization-maximization) algorithms to perform maximum likelihood estimation for these generalized Bradley-Terry models whereas Bayesian inference is typically performed using MCMC (Markov chain Monte Carlo) algorithms based on tailored Metropolis-Hastings (M-H) proposals. We show here that these MM\ algorithms can be reinterpreted as special instances of Expectation-Maximization (EM) algorithms associated to suitable sets of latent variables and propose some original extensions. These latent variables allow us to derive simple Gibbs samplers for Bayesian inference. We demonstrate experimentally the efficiency of these algorithms on a variety of applications.

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