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Structural Equation Modeling A Bayesian Approach Wiley Series in Probability and Statistics Series

Langue : Anglais

Auteur :

Couverture de l’ouvrage Structural Equation Modeling
***Winner of the 2008 Ziegel Prize for outstanding new book of the year***

Structural equation modeling (SEM) is a powerful multivariate method allowing the evaluation of a series of simultaneous hypotheses about the impacts of latent and manifest variables on other variables, taking measurement errors into account. As SEMs have grown in popularity in recent years, new models and statistical methods have been developed for more accurate analysis of more complex data. A Bayesian approach to SEMs allows the use of prior information resulting in improved parameter estimates, latent variable estimates, and statistics for model comparison, as well as offering more reliable results for smaller samples.

Structural Equation Modeling introduces the Bayesian approach to SEMs, including the selection of prior distributions and data augmentation, and offers an overview of the subject?s recent advances.

  • Demonstrates how to utilize powerful statistical computing tools, including the Gibbs sampler, the Metropolis-Hasting algorithm, bridge sampling and path sampling to obtain the Bayesian results.
  • Discusses the Bayes factor and Deviance Information Criterion (DIC) for model comparison.
  • Includes coverage of complex models, including SEMs with ordered categorical variables, and dichotomous variables, nonlinear SEMs, two-level SEMs, multisample SEMs, mixtures of SEMs, SEMs with missing data, SEMs with variables from an exponential family of distributions, and some of their combinations.
  • Illustrates the methodology through simulation studies and examples with real data from business management, education, psychology, public health and sociology.
  • Demonstrates the application of the freely available software WinBUGS via a supplementary website featuring computer code and data sets.

Structural Equation Modeling: A Bayesian Approach is a multi-disciplinary text ideal for researchers and students in many areas, including: statistics, biostatistics, business, education, medicine, psychology, public health and social science.

About the Author xi

Preface xiii

1 Introduction 1

1.1 Standard Structural Equation Models 1

1.2 Covariance Structure Analysis 2

1.3 Why a New Book? 3

1.4 Objectives of the Book 4

1.5 Data Sets and Notations 6

Appendix 1.1 7

References 10

2 Some Basic Structural Equation Models 13

2.1 Introduction 13

2.2 Exploratory Factor Analysis 15

2.3 Confirmatory and Higher-order Factor Analysis Models 18

2.4 The LISREL Model 22

2.5 The Bentler–Weeks Model 26

2.6 Discussion 27

References 28

3 Covariance Structure Analysis 31

3.1 Introduction 31

3.2 Definitions, Notations and Preliminary Results 33

3.3 GLS Analysis of Covariance Structure 36

3.4 ml Analysis of Covariance Structure 41

3.5 Asymptotically Distribution-free Methods 44

3.6 Some Iterative Procedures 47

Appendix 3.1: Matrix Calculus 53

Appendix 3.2: Some Basic Results in Probability Theory 57

Appendix 3.3: Proofs of Some Results 59

References 65

4 Bayesian Estimation of Structural Equation Models 67

4.1 Introduction 67

4.2 Basic Principles and Concepts of Bayesian Analysis of SEMs 70

4.3 Bayesian Estimation of the CFA Model 81

4.4 Bayesian Estimation of Standard SEMs 95

4.5 Bayesian Estimation via WinBUGS 98

Appendix 4.1: The Metropolis–Hastings Algorithm 104

Appendix 4.2: EPSR Value 105

Appendix 4.3: Derivations of Conditional Distributions 106

References 108

5 Model Comparison and Model Checking 111

5.1 Introduction 111

5.2 Bayes Factor 113

5.3 Path Sampling 115

5.4 An Application: Bayesian Analysis of SEMs with Fixed Covariates 120

5.5 Other Methods 127

5.6 Discussion 130

Appendix 5.1: Another Proof of Equation (5.10) 131

Appendix 5.2: Conditional Distributions for Simulating (θ, ΩlY, t) 133

Appendix 5.3: PP p-values for Model Assessment 136

References 136

6 Structural Equation Models with Continuous and Ordered Categorical Variables 139

6.1 Introduction 139

6.2 The Basic Model 142

6.3 Bayesian Estimation and Goodness-of-fit 144

6.4 Bayesian Model Comparison 155

6.5 Application 1: Bayesian Selection of the Number of Factors in EFA 159

6.6 Application 2: Bayesian Analysis of Quality of Life Data 164

References 172

7 Structural Equation Models with Dichotomous Variables 175

7.1 Introduction 175

7.2 Bayesian Analysis 177

7.3 Analysis of a Multivariate Probit Confirmatory Factor Analysis Model 186

7.4 Discussion 190

Appendix 7.1: Questions Associated with the Manifest Variables 191

References 192

8 Nonlinear Structural Equation Models 195

8.1 Introduction 195

8.2 Bayesian Analysis of a Nonlinear SEM 197

8.3 Bayesian Estimation of Nonlinear SEMs with Mixed Continuous and Ordered Categorical Variables 215

8.4 Bayesian Estimation of SEMs with Nonlinear Covariates and Latent Variables 220

8.5 Bayesian Model Comparison 230

References 239

9 Two-level Nonlinear Structural Equation Models 243

9.1 Introduction 243

9.2 A Two-level Nonlinear SEM with Mixed Type Variables 244

9.3 Bayesian Estimation 247

9.4 Goodness-of-fit and Model Comparison 255

9.5 An Application: Filipina CSWs Study 259

9.6 Two-level Nonlinear SEMs with Cross-level Effects 267

9.7 Analysis of Two-level Nonlinear SEMs using WinBUGS 275

Appendix 9.1: Conditional Distributions: Two-level Nonlinear Sem 279

Appendix 9.2: MH Algorithm: Two-level Nonlinear SEM 283

Appendix 9.3: PP p-value for Two-level NSEM with Mixed Continuous and Ordered-categorical Variables 285

Appendix 9.4: Questions Associated with the Manifest Variables 286

Appendix 9.5: Conditional Distributions: SEMs with Cross-level Effects 286

Appendix 9.6: The MH algorithm: SEMs with Cross-level Effects 289

References 290

10 Multisample Analysis of Structural Equation Models 293

10.1 Introduction 293

10.2 The Multisample Nonlinear Structural Equation Model 294

10.3 Bayesian Analysis of Multisample Nonlinear SEMs 297

10.4 Numerical Illustrations 302

Appendix 10.1: Conditional Distributions: Multisample SEMs 313

References 316

11 Finite Mixtures in Structural Equation Models 319

11.1 Introduction 319

11.2 Finite Mixtures in SEMs 321

11.3 Bayesian Estimation and Classification 323

11.4 Examples and Simulation Study 330

11.5 Bayesian Model Comparison of Mixture SEMs 344

Appendix 11.1: The Permutation Sampler 351

Appendix 11.2: Searching for Identifiability Constraints 352

References 352

12 Structural Equation Models with Missing Data 355

12.1 Introduction 355

12.2 A General Framework for SEMs with Missing Data that are Mar 357

12.3 Nonlinear SEM with Missing Continuous and Ordered Categorical Data 359

12.4 Mixture of SEMs with Missing Data 370

12.5 Nonlinear SEMs with Nonignorable Missing Data 375

12.6 Analysis of SEMs with Missing Data via WinBUGS 386

Appendix 12.1: Implementation of the MH Algorithm 389

References 390

13 Structural Equation Models with Exponential Family of Distributions 393

13.1 Introduction 393

13.2 The SEM Framework with Exponential Family of Distributions 394

13.3 A Bayesian Approach 398

13.4 A Simulation Study 402

13.5 A Real Example: A Compliance Study of Patients 404

13.6 Bayesian Analysis of an Artificial Example using WinBUGS 411

13.7 Discussion 416

Appendix 13.1: Implementation of the MH Algorithms 417

Appendix 13.2 419

References 419

14 Conclusion 421

References 425

Index 427

Sik-Yum Lee is a professor of statistics at the Chinese University of Hong Kong. He earned his Ph.D. in biostatistics at the University of California, Los Angeles, USA. He received a distinguished service award from the International Chinese Statistical Association, is a former president of the Hong Kong Statistical Society, and is an elected member of the International Statistical Institute and a Fellow of the American Statistical Association. He serves as Associate Editor for Psychometrika and Computational Statistics & Data Analysis, and as a member of the Editorial Board of British Journal of Mathematical and Statistical Psychology, Structural Equation Modeling, Handbook of Computing and Statistics with Applications and Chinese Journal of Medicine. his research interests are in structural equation models, latent variable models, Bayesian methods and statistical diagnostics. he is editor of Handbook of Latent Variable and Related Models and author of over 140 papers.

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