Handbook of Bayesian, Fiducial, and Frequentist Inference
Herausgeber: Berger, James; Xie, Min-Ge; Reid, Nancy; Meng, Xiao-Li
Handbook of Bayesian, Fiducial, and Frequentist Inference
Herausgeber: Berger, James; Xie, Min-Ge; Reid, Nancy; Meng, Xiao-Li
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This handbook provides a comprehensive introduction and overview of the key developments in the BFF schools of inference. It is intended to provide researchers and students an overview of foundations of inference from the BFF perspective and provides a general reference for BFF inference.
This handbook provides a comprehensive introduction and overview of the key developments in the BFF schools of inference. It is intended to provide researchers and students an overview of foundations of inference from the BFF perspective and provides a general reference for BFF inference.
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 406
- Erscheinungstermin: 26. Februar 2024
- Englisch
- Abmessung: 254mm x 178mm x 24mm
- Gewicht: 943g
- ISBN-13: 9780367321987
- ISBN-10: 036732198X
- Artikelnr.: 69432373
- Verlag: CRC Press
- Seitenzahl: 406
- Erscheinungstermin: 26. Februar 2024
- Englisch
- Abmessung: 254mm x 178mm x 24mm
- Gewicht: 943g
- ISBN-13: 9780367321987
- ISBN-10: 036732198X
- Artikelnr.: 69432373
James Berger, PhD is the Arts and Sciences Distinguished Professor Emeritus of Statistics at Duke University. Dr. Berger received his PhD in mathematics from Cornell University in 1974. Among the awards and honors, Dr. Berger has received Guggenheim and Sloan Fellowships, the COPSS President's Award in 1985, the Sigma Xi Research Award at Purdue University for contribution of the year to science in 1993, the COPSS Fisher Lecturer in 2001, the Wald Lecturer of the IMS in 2007 and the Wilks Award from the ASA in 2015. He was elected as foreign member of the Spanish Real Academia de Ciencias in 2002, elected to the USA National Academy of Sciences in 2003, was awarded an honorary Doctor of Science degree from Purdue University in 2004, and became an Honorary Professor at East China Normal University in 2011. Xiao-Li Meng, PhD is the Whipple V. N. Jones Professor of Statistics at Harvard University. Dr. Meng received his PhD in statistics from Harvard University. He is the Founding Editor-in-Chief of Harvard Data Science Review. In 2020 he was elected to the American Academy of Arts and Sciences. His interests range from the theoretical foundations of statistical inferences to statistical methods and computation. Nancy Reid, PhD is a University Professor of Statistical Sciences at the University of Toronto. Dr. Reid received her PhD in statistics from Stanford University, and is a Fellow of the Royal Society, the Royal Society of Canada, the Royal Society of Edinburgh, and a Foreign Associate of the National Academy of Sciences. In 2015 she was appointed Officer of the Order of Canada. Her research interests include the foundations and theory of statistical inference. Min-ge Xie, PhD is a Distinguished Professor at Rutgers, The State University of New Jersey. Dr. Xie received his PhD in Statistics from the University of Illinois at Urbana-Champaign (UIUC). He is the current Editor of The American Statistician and a co-founding Editor-in-Chief of The New England Journal of Statistics in Data Science. His research work on confidence distributions was described as a "grounding process with energy and insight." His research interests include statistical inference, foundations of data science, fusion learning, and interdisciplinary research.
1. Risky Business 2. Empirical Bayes: Concepts and Methods 3. Distributions
for Parameters 4. Objective Bayesian Inference and its Relationship to
Frequentism 5. Fiducial Inference, Then and Now 6. Bridging Bayesian,
frequentist and fiducial inferences using confidence distributions 7.
Objective Bayesian Testing and Model Uncertainty 8. "A BFFer's Exploration
with Nuisance Constructs: Bayesian p-value, H likelihood, and Cauchyanity"
9. Bayesian neural networks and dimensionality reduction 10. The Tangent
Exponential Model 11. Data Integration and Model Fusion in the Bayesian and
Frequentist Frameworks 12. How the game-theoretic foundation for
probability resolves the Bayesian vs. frequentist standoff 13.
"Introduction to Generalized Fiducial Inference" 14. "Dempster-Shafer
Theory for Statistical Inference" 15. Slicing and Dicing a Path Through the
Fiducial Forest 16. Inferential models and possibility measures 17.
Conformal predictive distributions: an approach to nonparametric ducial
prediction 18. Fiducial Inference and Decision Theory Index
for Parameters 4. Objective Bayesian Inference and its Relationship to
Frequentism 5. Fiducial Inference, Then and Now 6. Bridging Bayesian,
frequentist and fiducial inferences using confidence distributions 7.
Objective Bayesian Testing and Model Uncertainty 8. "A BFFer's Exploration
with Nuisance Constructs: Bayesian p-value, H likelihood, and Cauchyanity"
9. Bayesian neural networks and dimensionality reduction 10. The Tangent
Exponential Model 11. Data Integration and Model Fusion in the Bayesian and
Frequentist Frameworks 12. How the game-theoretic foundation for
probability resolves the Bayesian vs. frequentist standoff 13.
"Introduction to Generalized Fiducial Inference" 14. "Dempster-Shafer
Theory for Statistical Inference" 15. Slicing and Dicing a Path Through the
Fiducial Forest 16. Inferential models and possibility measures 17.
Conformal predictive distributions: an approach to nonparametric ducial
prediction 18. Fiducial Inference and Decision Theory Index
1. Risky Business 2. Empirical Bayes: Concepts and Methods 3. Distributions
for Parameters 4. Objective Bayesian Inference and its Relationship to
Frequentism 5. Fiducial Inference, Then and Now 6. Bridging Bayesian,
frequentist and fiducial inferences using confidence distributions 7.
Objective Bayesian Testing and Model Uncertainty 8. "A BFFer's Exploration
with Nuisance Constructs: Bayesian p-value, H likelihood, and Cauchyanity"
9. Bayesian neural networks and dimensionality reduction 10. The Tangent
Exponential Model 11. Data Integration and Model Fusion in the Bayesian and
Frequentist Frameworks 12. How the game-theoretic foundation for
probability resolves the Bayesian vs. frequentist standoff 13.
"Introduction to Generalized Fiducial Inference" 14. "Dempster-Shafer
Theory for Statistical Inference" 15. Slicing and Dicing a Path Through the
Fiducial Forest 16. Inferential models and possibility measures 17.
Conformal predictive distributions: an approach to nonparametric ducial
prediction 18. Fiducial Inference and Decision Theory Index
for Parameters 4. Objective Bayesian Inference and its Relationship to
Frequentism 5. Fiducial Inference, Then and Now 6. Bridging Bayesian,
frequentist and fiducial inferences using confidence distributions 7.
Objective Bayesian Testing and Model Uncertainty 8. "A BFFer's Exploration
with Nuisance Constructs: Bayesian p-value, H likelihood, and Cauchyanity"
9. Bayesian neural networks and dimensionality reduction 10. The Tangent
Exponential Model 11. Data Integration and Model Fusion in the Bayesian and
Frequentist Frameworks 12. How the game-theoretic foundation for
probability resolves the Bayesian vs. frequentist standoff 13.
"Introduction to Generalized Fiducial Inference" 14. "Dempster-Shafer
Theory for Statistical Inference" 15. Slicing and Dicing a Path Through the
Fiducial Forest 16. Inferential models and possibility measures 17.
Conformal predictive distributions: an approach to nonparametric ducial
prediction 18. Fiducial Inference and Decision Theory Index