The BUGS Book: A Practical Introduction to Bayesian Analysis

Introduction: Probability and Parameters Probability Probability distributions Calculating properties of probability distributions Monte Carlo integration Monte Carlo Simulations Using BUGS Introduction to BUGS DoodleBUGS Using BUGS to simulate from distributions Transformations of random variables Complex calculations using Monte Carlo Multivariate Monte Carlo analysis Predictions with unknown parameters Introduction to Bayesian Inference Bayesian learning Posterior predictive distributions Conjugate Bayesian inference Inference about a discrete parameter Combinations of conjugate analyses Bayesian and classical methods Introduction to Markov Chain Monte Carlo Methods Bayesian computation Initial values Convergence Efficiency and accuracy Beyond MCMC Prior Distributions Different purposes of priors Vague, 'objective' and 'reference' priors Representation of informative priors Mixture of prior distributions Sensitivity analysis Regression Models Linear regression with normal errors Linear regression with non-normal errors Nonlinear regression with normal errors Multivariate responses Generalised linear regression models Inference on functions of parameters Further reading Categorical Data 2 x 2 tables Multinomial models Ordinal regression Further reading Model Checking and Comparison Introduction Deviance Residuals Predictive checks and Bayesian p-values Model assessment by embedding in larger models Model comparison using deviances Bayes factors Model uncertainty Discussion on model comparison Prior-data conflict Issues in Modelling Missing data Prediction Measurement error Cutting feedback New distributions Censored, truncated and grouped observations Constrained parameters Bootstrapping Ranking Hierarchical Models Exchangeability Priors Hierarchical regression models Hierarchical models for variances Redundant parameterisations More general formulations Checking of hierarchical models Comparison of hierarchical models Further resources Specialised Models Time-to-event data Time series models Spatial models Evidence synthesis Differential equation and pharmacokinetic models Finite mixture and latent class models Piecewise parametric models Bayesian nonparametric models Different Implementations of BUGS Introduction BUGS engines and interfaces Expert systems and MCMC methods Classic BUGS WinBUGS OpenBUGS JAGS A Appendix: BUGS Language Syntax Introduction Distributions Deterministic functions Repetition Multivariate quantities Indexing Data transformations Commenting B Appendix: Functions in BUGS Standard functions Trigonometric functions Matrix algebra Distribution utilities and model checking Functionals and differential equations Miscellaneous C Appendix: Distributions in BUGS Continuous univariate, unrestricted range Continuous univariate, restricted to be positive Continuous univariate, restricted to a finite interval Continuous multivariate distributions Discrete univariate distributions Discrete multivariate distributions Bibliography Index