Bayesian Statistics
An Introduction
(Sprache: Englisch)
Bayesian Statistics is the school of thought that combines prior beliefs with the likelihood of a hypothesis to arrive at posterior beliefs. The first edition of Peter Lee's book appeared in 1989, but the subject has moved ever onwards, with increasing emphasis on Monte Carlo based techniques.
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Produktinformationen zu „Bayesian Statistics “
Bayesian Statistics is the school of thought that combines prior beliefs with the likelihood of a hypothesis to arrive at posterior beliefs. The first edition of Peter Lee's book appeared in 1989, but the subject has moved ever onwards, with increasing emphasis on Monte Carlo based techniques.
Klappentext zu „Bayesian Statistics “
Bayesian Statistics is the school of thought that combines prior beliefs with the likelihood of a hypothesis to arrive at posterior beliefs. The first edition of Peter Lee's book appeared in 1989, but the subject has moved ever onwards, with increasing emphasis on Monte Carlo based techniques.This new fourth edition looks at recent techniques such as variational methods, Bayesian importance sampling, approximate Bayesian computation and Reversible Jump Markov Chain Monte Carlo (RJMCMC), providing a concise account of the way in which the Bayesian approach to statistics develops as well as how it contrasts with the conventional approach. The theory is built up step by step, and important notions such as sufficiency are brought out of a discussion of the salient features of specific examples.
This edition:
* Includes expanded coverage of Gibbs sampling, including more numerical examples and treatments of OpenBUGS, R2WinBUGS and R2OpenBUGS.
* Presents significant new material on recent techniques such as Bayesian importance sampling, variational Bayes, Approximate Bayesian Computation (ABC) and Reversible Jump Markov Chain Monte Carlo (RJMCMC).
* Provides extensive examples throughout the book to complement the theory presented.
* Accompanied by a supporting website featuring new material and solutions.
More and more students are realizing that they need to learn Bayesian statistics to meet their academic and professional goals. This book is best suited for use as a main text in courses on Bayesian statistics for third and fourth year undergraduates and postgraduate students.
Inhaltsverzeichnis zu „Bayesian Statistics “
Preface xixPreface to the First Edition xxi
1 Preliminaries 1
1.1 Probability and Bayes' Theorem 1
1.2 Examples on Bayes' Theorem 9
1.3 Random variables 12
1.4 Several random variables 17
1.5 Means and variances 23
1.6 Exercises on Chapter 1 31
2 Bayesian inference for the normal distribution 36
2.1 Nature of Bayesian inference 36
2.2 Normal prior and likelihood 40
2.3 Several normal observations with a normal prior 44
2.4 Dominant likelihoods 48
2.5 Locally uniform priors 50
2.6 Highest density regions 54
2.7 Normal variance 55
2.8 HDRs for the normal variance 59
2.9 The role of sufficiency 60
2.10 Conjugate prior distributions 67
2.11 The exponential family 71
2.12 Normal mean and variance both unknown 73
2.13 Conjugate joint prior for the normal distribution 78
2.14 Exercises on Chapter 2 82
3 Some other common distributions 85
3.1 The binomial distribution 85
3.2 Reference prior for the binomial likelihood 92
3.3 Jeffreys' rule 96
3.4 The Poisson distribution 102
3.5 The uniform distribution 106
3.6 Reference prior for the uniform distribution 110
3.6.1 Lower limit of the interval fixed 110
3.7 The tramcar problem 113
3.8 The first digit problem; invariant priors 114
3.9 The circular normal distribution 117
3.10 Approximations based on the likelihood 122
3.11 Reference posterior distributions 128
3.12 Exercises on Chapter 3 134
4 Hypothesis testing 138
4.1 Hypothesis testing 138
4.2 One-sided hypothesis tests 143
4.3 Lindley's method 145
4.4 Point (or sharp) null hypotheses with prior information 146
4.5 Point null hypotheses for the normal distribution 150
4.6 The Doogian
... mehr
philosophy 157
4.7 Exercises on Chapter 4 158
5 Two-sample problems 162
5.1 Two-sample problems - both variances unknown 162
5.2 Variances unknown but equal 165
5.3 Variances unknown and unequal (Behrens-Fisher problem) 168
5.4 The Behrens-Fisher controversy 171
5.5 Inferences concerning a variance ratio 173
5.6 Comparison of two proportions; the 2 × 2 table 176
5.7 Exercises on Chapter 5 179
6 Correlation, regression and the analysis of variance 182
6.1 Theory of the correlation coefficient 182
6.2 Examples on the use of the correlation coefficient 189
6.3 Regression and the bivariate normal model 190
6.4 Conjugate prior for the bivariate regression model 197
6.5 Comparison of several means - the one way model 200
6.6 The two way layout 209
6.7 The general linear model 212
6.8 Exercises on Chapter 6 217
7 Other topics 221
7.1 The likelihood principle 221
7.2 The stopping rule principle 226
7.3 Informative stopping rules 229
7.4 The likelihood principle and reference priors 232
7.5 Bayesian decision theory 234
7.6 Bayes linear methods 240
7.7 Decision theory and hypothesis testing 243
7.8 Empirical Bayes methods 245
7.9 Exercises on Chapter 7 247
8 Hierarchical models 253
8.1 The idea of a hierarchical model 253
8.2 The hierarchical normal model 258
8.3 The baseball example 262
8.4 The Stein estimator 264
8.5 Bayesian analysis for an unknown overall mean 268<
4.7 Exercises on Chapter 4 158
5 Two-sample problems 162
5.1 Two-sample problems - both variances unknown 162
5.2 Variances unknown but equal 165
5.3 Variances unknown and unequal (Behrens-Fisher problem) 168
5.4 The Behrens-Fisher controversy 171
5.5 Inferences concerning a variance ratio 173
5.6 Comparison of two proportions; the 2 × 2 table 176
5.7 Exercises on Chapter 5 179
6 Correlation, regression and the analysis of variance 182
6.1 Theory of the correlation coefficient 182
6.2 Examples on the use of the correlation coefficient 189
6.3 Regression and the bivariate normal model 190
6.4 Conjugate prior for the bivariate regression model 197
6.5 Comparison of several means - the one way model 200
6.6 The two way layout 209
6.7 The general linear model 212
6.8 Exercises on Chapter 6 217
7 Other topics 221
7.1 The likelihood principle 221
7.2 The stopping rule principle 226
7.3 Informative stopping rules 229
7.4 The likelihood principle and reference priors 232
7.5 Bayesian decision theory 234
7.6 Bayes linear methods 240
7.7 Decision theory and hypothesis testing 243
7.8 Empirical Bayes methods 245
7.9 Exercises on Chapter 7 247
8 Hierarchical models 253
8.1 The idea of a hierarchical model 253
8.2 The hierarchical normal model 258
8.3 The baseball example 262
8.4 The Stein estimator 264
8.5 Bayesian analysis for an unknown overall mean 268<
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Bibliographische Angaben
- Autor: Peter M. Lee
- 2012, 4. Aufl., 488 Seiten, Masse: 15,2 x 22,9 cm, Kartoniert (TB), Englisch
- Verlag: Wiley & Sons
- ISBN-10: 1118332571
- ISBN-13: 9781118332573
- Erscheinungsdatum: 13.08.2012
Sprache:
Englisch
Pressezitat
"As a lifelong non-statistician and sporadic "user" of statistics, I have not come across another advanced statistics book (as I would characterize this one) that offers so much to the non-expert and, I'll bet, to the expert as well. The book has my highest recommendation." ( Computing Reviews , 7 January 2013)Kommentar zu "Bayesian Statistics"
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