Bayesian Statistical Methods
Texts in Statistical Science
By: Brian J. Reich, Sujit K. Ghosh
Paperback | 30 June 2021
At a Glance
288 Pages
23.5 x 15.5 x 1.5
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orIn addition to the basic concepts of Bayesian inferential methods, the book covers many general topics:
- Advice on selecting prior distributions
- Computational methods including Markov chain Monte Carlo (MCMC)
- Model-comparison and goodness-of-fit measures, including sensitivity to priors
- Frequentist properties of Bayesian methods
- Semiparametric regression
- Handling of missing data using predictive distributions
- Priors for high-dimensional regression models
- Computational techniques for large datasets
- Spatial data analysis
About the Authors
Brian J. Reich, Associate Professor of Statistics at North Carolina State University, is currently the editor-in-chief of the Journal of Agricultural, Biological, and Environmental Statistics and was awarded the LeRoy & Elva Martin Teaching Award.
Sujit K. Ghosh, Professor of Statistics at North Carolina State University, has over 22 years of research and teaching experience in conducting Bayesian analyses, received the Cavell Brownie mentoring award, and served as the Deputy Director at the Statistical and Applied Mathematical Sciences Institute.
Industry Reviews
"A book that gives a comprehensive coverage of Bayesian inference for a diverse background of scientific practitioners is needed. The book Bayesian Statistical Methods seems to be a good candidate for this purpose, which aims at a balanced treatment between theory and computation. The authors are leading researchers and experts in Bayesian statistics. I believe this book is likely to be an excellent text book for an introductory course targeting at first-year graduate students or undergraduate statistics majors...This new book is more focused on the most fundamental components of Bayesian methods. Moreover, this book contains many simulated examples and real-data applications, with computer code provided to demonstrate the implementations."
~Qing Zhou, UCLA
"The book gives an overview of Bayesian statistical modeling with a focus on the building blocks for fitting and analyzing hierarchical models. The book uses a number of interesting and realistic examples to illustrate the methods. The computational focus is in the use of JAGS, as a tool to perform Bayesian inference using Markov chain Monte Carlo methods...It can be targeted as a textbook for upper-division undergraduate students in statistics and some areas of science, engineering and social sciences with an interest in a reasonably formal development of data analytic methods and uncertainty quantification. It could also be used for a Master's class in statistical modeling."
~Bruno Sanso, University of California Santa Cruz
"The given manuscript sample is technically correct, clearly written, and at an appropriate level of difficulty... I enjoyed the real-life problems in the Chapter 1 exercises. I especially like the problem on the Federalist Papers, because the students can revisit this problem and perform more powerful inferences using the advanced Bayesian methods that they will learn later in the textbook... I would seriously consider adopting the book as a required textbook. This text provides more details, R codes, and illuminating visualizations compared to competing books, and more quickly introduces a broad scope of regression models that are important in practical applications."
~Arman Sabbaghi, Purdue University
"The authors are leading researchers and experts in Bayesian statistics. I believe this book is likely to be an excellent textbook for an introductory course targeting at first-year graduate students or
undergraduate statistics majors..." (Qing Zhou, UCLA)
"I would seriously consider adopting the book as a required textbook. This text provides more details, R codes, and illuminating visualizations compared to competing books, and more quickly introduces a broad scope of regression models that are important in practical applications..." (Arman Sabbaghi, Purdue University)
"The book gives an overview of Bayesian statistical modeling with a focus on the building blocks for fitting and analyzing hierarchical models. The book uses a number of interesting and realistic examples to illustrate the methods. The computational focus is in the use of JAGS, as a tool to perform Bayesian inference using Markov chain Monte Carlo methods...It can be targeted as a textbook for upper-division undergraduate students in statistics and some areas of science, engineering and social sciences with an interest in a reasonably formal development of data analytic methods and uncertainty quantification. It could also be used for a Master's class in statistical modeling." (Bruno Sanso, University of California Santa Cruz)
"A book that gives a comprehensive coverage of Bayesian inference for a diverse background of scientific practitioners is needed. The book Bayesian Statistical Methods seems to be a good candidate for this purpose, which aims at a balanced treatment between theory and computation. The authors are leading researchers and experts in Bayesian statistics. I believe this book is likely to be an excellent text book for an introductory course targeting at first-year graduate students or undergraduate statistics majors...This new book is more focused on the most fundamental components of Bayesian methods. Moreover, this book contains many simulated examples and real-data applications, with computer code provided to demonstrate the implementations."
~Qing Zhou, UCLA
"The book gives an overview of Bayesian statistical modeling with a focus on the building blocks for fitting and analyzing hierarchical models. The book uses a number of interesting and realistic examples to illustrate the methods. The computational focus is in the use of JAGS, as a tool to perform Bayesian inference using Markov chain Monte Carlo methods...It can be targeted as a textbook for upper-division undergraduate students in statistics and some areas of science, engineering and social sciences with an interest in a reasonably formal development of data analytic methods and uncertainty quantification. It could also be used for a Master's class in statistical modeling."
~Bruno Sanso, University of California Santa Cruz
"The given manuscript sample is technically correct, clearly written, and at an appropriate level of difficulty... I enjoyed the real-life problems in the Chapter 1 exercises. I especially like the problem on the Federalist Papers, because the students can revisit this problem and perform more powerful inferences using the advanced Bayesian methods that they will learn later in the textbook... I would seriously consider adopting the book as a required textbook. This text provides more details, R codes, and illuminating visualizations compared to competing books, and more quickly introduces a broad scope of regression models that are important in practical applications."
~Arman Sabbaghi, Purdue University
"The authors are leading researchers and experts in Bayesian statistics. I believe this book is likely to be an excellent textbook for an introductory course targeting at first-year graduate students or
undergraduate statistics majors..." (Qing Zhou, UCLA)
"I would seriously consider adopting the book as a required textbook. This text provides more details, R codes, and illuminating visualizations compared to competing books, and more quickly introduces a broad scope of regression models that are important in practical applications..." (Arman Sabbaghi, Purdue University)
"The book gives an overview of Bayesian statistical modeling with a focus on the building blocks for fitting and analyzing hierarchical models. The book uses a number of interesting and realistic examples to illustrate the methods. The computational focus is in the use of JAGS, as a tool to perform Bayesian inference using Markov chain Monte Carlo methods...It can be targeted as a textbook for upper-division undergraduate students in statistics and some areas of science, engineering and social sciences with an interest in a reasonably formal development of data analytic methods and uncertainty quantification. It could also be used for a Master's class in statistical modeling." (Bruno Sanso, University of California Santa Cruz)
Probability background
Univariate distributions
Discrete distributions
Continuous distributions
Multivariate distributions
Marginal and conditional distributions
Bayes' Rule
Discrete example of Bayes' Rule
Continuous example of Bayes' Rule
Introduction to Bayesian inference
Summarizing the posterior
Point estimation
Univariate posteriors
Multivariate posteriors
The posterior predictive distribution
Exercises
2. From Prior Information to Posterior Inference
Conjugate Priors
Beta-binomial model for a proportion
Poisson-gamma model for a rate
Normal-normal model for a mean
Normal-inverse gamma model for a variance
Natural conjugate priors
Normal-normal model for a mean vector
Normal-inverse Wishart model for a covariance matrix
Mixtures of conjugate priors
Improper Priors
Objective Priors
Jeffreys prior
Reference Priors
Maximum Entropy Priors
Empirical Bayes
Penalized complexity priors
Exercises
3. Computational approaches
Deterministic methods
Maximum a posteriori estimation
Numerical integration
Bayesian Central Limit Theorem (CLT)
Markov Chain Monte Carlo (MCMC) methods
Gibbs sampling
Metropolis-Hastings (MH) sampling
MCMC software options in R
Diagnosing and improving convergence
Selecting initial values
Convergence diagnostics
Improving convergence
Dealing with large datasets
Exercises
4. Linear models
Analysis of normal means
One-sample/paired analysis
Comparison of two normal means
Linear regression
Jeffreys prior
Gaussian prior
Continuous shrinkage priors
Predictions
Example: Factors that affect a home's microbiome
Generalized linear models
Binary data
Count data
Example: Logistic regression for NBA clutch free throws
Example: Beta regression for microbiome data
Random effects
Flexible linear models
Nonparametric regression
Heteroskedastic models
Non-Gaussian error models
Linear models with correlated data
Exercises
5. Model selection and diagnostics
Cross validation
Hypothesis testing and Bayes factors
Stochastic search variable selection
Bayesian model averaging
Model selection criteria
Goodness-of-fit checks
Exercises
6. Case studies using hierarchical modeling
Overview of hierarchical modeling
Case study: Species distribution mapping via data fusion
Case study: Tyrannosaurid growth curves
Case study: Marathon analysis with missing data
7. Statistical properties of Bayesian methods
Decision theory
Frequentist properties
Bias-variance tradeoff
Asymptotics
Simulation studies
Exercises
Appendices
Probability distributions
Univariate discrete
Multivariate discrete
Univariate continuous
Multivariate continuous
List of conjugacy pairs
Derivations
Normal-normal model for a mean
Normal-normal model for a mean vector
Normal-inverse Wishart model for a covariance matrix
Jeffreys' prior for a normal model
Jeffreys' prior for multiple linear regression
Convergence of the Gibbs sampler
Marginal distribution of a normal mean under Jeffreys’ prior
Marginal posterior of the regression coefficients under Jeffreys prior
Proof of posterior consistency
Computational algorithms
Integrated nested Laplace approximation (INLA)
Metropolis-adjusted Langevin algorithm
Hamiltonian Monte Carlo (HMC)
Delayed Rejection and Adaptive Metropolis
Slice sampling
Software comparison
Example - Simple linear regression
Example - Random slopes model
ISBN: 9781032093185
ISBN-10: 1032093188
Series: Chapman & Hall/CRC Texts in Statistical Science
Published: 30th June 2021
Format: Paperback
Language: English
Number of Pages: 288
Audience: College, Tertiary and University
Publisher: Taylor & Francis Ltd
Country of Publication: GB
Dimensions (cm): 23.5 x 15.5 x 1.5
Weight (kg): 0.45
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