10.6084/m9.figshare.5634916.v2 Nikolaus Umlauf Nikolaus Umlauf Nadja Klein Nadja Klein Achim Zeileis Achim Zeileis BAMLSS: Bayesian Additive Models for Location, Scale, and Shape (and Beyond) Taylor & Francis Group 2018 BUGS Distributional regression GAMLSS MCMC R Software 2018-06-14 19:45:43 Dataset https://tandf.figshare.com/articles/dataset/BAMLSS_Bayesian_Additive_Models_for_Location_Scale_and_Shape_and_Beyond_/5634916 <p>Bayesian analysis provides a convenient setting for the estimation of complex generalized additive regression models (GAMs). Since computational power has tremendously increased in the past decade, it is now possible to tackle complicated inferential problems, for example, with Markov chain Monte Carlo simulation, on virtually any modern computer. This is one of the reasons why Bayesian methods have become increasingly popular, leading to a number of highly specialized and optimized estimation engines and with attention shifting from conditional mean models to probabilistic distributional models capturing location, scale, shape (and other aspects) of the response distribution. To embed many different approaches suggested in literature and software, a unified modeling architecture for distributional GAMs is established that exploits distributions, estimation techniques (posterior mode or posterior mean), and model terms (fixed, random, smooth, spatial,…). It is shown that within this framework implementing algorithms for complex regression problems, as well as the integration of already existing software, is relatively straightforward. The usefulness is emphasized with two complex and computationally demanding application case studies: a large daily precipitation climatology, as well as a Cox model for continuous time with space-time interactions. Supplementary material for this article is available online.</p>