Applied Bayesian Hierarchical Methods - Peter D. Congdon

Applied Bayesian Hierarchical Methods

Buch | Hardcover
604 Seiten
2010
Chapman & Hall/CRC (Verlag)
978-1-58488-720-1 (ISBN)
108,45 inkl. MwSt
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Bayesian methods facilitate the analysis of complex models and data structures. Emphasizing data applications, alternative modeling specifications, and computer implementation, this book provides a practical overview of methods for Bayesian analysis of hierarchical models.
The use of Markov chain Monte Carlo (MCMC) methods for estimating hierarchical models involves complex data structures and is often described as a revolutionary development. An intermediate-level treatment of Bayesian hierarchical models and their applications, Applied Bayesian Hierarchical Methods demonstrates the advantages of a Bayesian approach to data sets involving inferences for collections of related units or variables and in methods where parameters can be treated as random collections.





Emphasizing computational issues, the book provides examples of the following application settings: meta-analysis, data structured in space or time, multilevel and longitudinal data, multivariate data, nonlinear regression, and survival time data. For the worked examples, the text mainly employs the WinBUGS package, allowing readers to explore alternative likelihood assumptions, regression structures, and assumptions on prior densities. It also incorporates BayesX code, which is particularly useful in nonlinear regression. To demonstrate MCMC sampling from first principles, the author includes worked examples using the R package.





Through illustrative data analysis and attention to statistical computing, this book focuses on the practical implementation of Bayesian hierarchical methods. It also discusses several issues that arise when applying Bayesian techniques in hierarchical and random effects models.

Peter D. Congdon is a research professor of quantitative geography and health statistics in the Centre for Statistics and Department of Geography at the University of London, UK.

Bayesian Methods for Complex Data: Estimation and Inference
Introduction
Posterior Inference from Bayes Formula
Markov Chain Sampling in Relation to Monte Carlo Methods: Obtaining Posterior Inferences
Hierarchical Bayes Applications
Metropolis Sampling
Choice of Proposal Density
Obtaining Full Conditional Densities
Metropolis–Hastings Sampling
Gibbs Sampling
Assessing Efficiency and Convergence: Ways of Improving Convergence
Choice of Prior Density





Model Fit, Comparison, and Checking
Introduction
Formal Methods: Approximating Marginal Likelihoods
Effective Model Dimension and Deviance Information Criterion
Variance Component Choice and Model Averaging
Predictive Methods for Model Choice and Checking
Estimating Posterior Model Probabilities


Hierarchical Estimation for Exchangeable Units: Continuous and Discrete Mixture Approaches
Introduction
Hierarchical Priors for Ensemble Estimation using Continuous Mixtures
The Normal-Normal Hierarchical Model and Its Applications
Priors for Second Stage Variance Parameters
Multivariate Meta-Analysis
Heterogeneity in Count Data: Hierarchical Poisson Models
Binomial and Multinomial Heterogeneity
Discrete Mixtures and Nonparametric Smoothing Methods
Nonparametric Mixing via Dirichlet Process and Polya Tree Priors


Structured Priors Recognizing Similarity over Time and Space
Introduction
Modeling Temporal Structure: Autoregressive Models
State Space Priors for Metric Data
Time Series for Discrete Responses: State Space Priors and Alternatives
Stochastic Variances
Modeling Discontinuities in Time
Spatial Smoothing and Prediction for Area Data
Conditional Autoregressive Priors
Priors on Variances in Conditional Spatial Models
Spatial Discontinuity and Robust Smoothing
Models for Point Processes


Regression Techniques using Hierarchical Priors
Introduction
Regression for Overdispersed Discrete Data
Latent Scales for Binary and Categorical Data
Nonconstant Regression Relationships and Variance Heterogeneity
Heterogeneous Regression and Discrete Mixture Regressions
Time Series Regression: Correlated Errors and Time-Varying Regression Effects
Spatial Correlation in Regression Residuals
Spatially Varying Regression Effects: Geographically Weighted Linear Regression and Bayesian Spatially Varying Coefficient Models


Bayesian Multilevel Models
Introduction
The Normal Linear Mixed Model for Hierarchical Data
Discrete Responses: General Linear Mixed Model, Conjugate, and Augmented Data Models
Crossed and Multiple Membership Random Effects
Robust Multilevel Models


Multivariate Priors, with a Focus on Factor and Structural Equation Models
Introduction
The Normal Linear SEM and Factor Models
Identifiability and Priors on Loadings
Multivariate Exponential Family Outcomes and General Linear Factor Models
Robust Options in Multivariate and Factor Analysis
Multivariate Spatial Priors for Discrete Area Frameworks
Spatial Factor Models
Multivariate Time Series


Hierarchical Models for Panel Data
Introduction
General Linear Mixed Models for Panel Data
Temporal Correlation and Autocorrelated Residuals
Categorical Choice Panel Data
Observation-Driven Autocorrelation: Dynamic Panel Models
Robust Panel Models: Heteroscedasticity, Generalized Error Densities, and Discrete Mixtures
Multilevel, Multivariate, and Multiple Time Scale Longitudinal Data
Missing Data in Panel Models


Survival and Event History Models
Introduction
Survival Analysis in Continuous Time
Semiparametric Hazards
Including Frailty
Discrete Time Hazard Models
Dependent Survival Times: Multivariate and Nested Survival Times
Competing Risks





Hierarchical Methods for Nonlinear Regression
Introduction
Nonparametric Basis Function Models for the Regression Mean
Multivariate Basis Function Regression
Heteroscedasticity via Adaptive Nonparametric Regression
General Additive Methods
Nonparametric Regression Methods for Longitudinal Analysis





Appendix: Using WinBUGS and BayesX


References


Index

Erscheint lt. Verlag 19.5.2010
Zusatzinfo Approx 800 equations; 15 Tables, black and white; 43 Illustrations, black and white
Sprache englisch
Maße 156 x 235 mm
Gewicht 975 g
Themenwelt Mathematik / Informatik Mathematik
ISBN-10 1-58488-720-6 / 1584887206
ISBN-13 978-1-58488-720-1 / 9781584887201
Zustand Neuware
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