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Statistical Analysis with Missing Data
Buch von Roderick J. A. Little (u. a.)
Sprache: Englisch

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An up-to-date, comprehensive treatment of a classic text on missing data in statistics

The topic of missing data has gained considerable attention in recent decades. This new edition by two acknowledged experts on the subject offers an up-to-date account of practical methodology for handling missing data problems. Blending theory and application, authors Roderick Little and Donald Rubin review historical approaches to the subject and describe simple methods for multivariate analysis with missing values. They then provide a coherent theory for analysis of problems based on likelihoods derived from statistical models for the data and the missing data mechanism, and then they apply the theory to a wide range of important missing data problems.

Statistical Analysis with Missing Data, Third Edition starts by introducing readers to the subject and approaches toward solving it. It looks at the patterns and mechanisms that create the missing data, as well as a taxonomy of missing data. It then goes on to examine missing data in experiments, before discussing complete-case and available-case analysis, including weighting methods. The new edition expands its coverage to include recent work on topics such as nonresponse in sample surveys, causal inference, diagnostic methods, and sensitivity analysis, among a host of other topics.
* An updated "classic" written by renowned authorities on the subject
* Features over 150 exercises (including many new ones)
* Covers recent work on important methods like multiple imputation, robust alternatives to weighting, and Bayesian methods
* Revises previous topics based on past student feedback and class experience
* Contains an updated and expanded bibliography
The authors were awarded The Karl Pearson Prize in 2017 by the International Statistical Institute, for a research contribution that has had profound influence on statistical theory, methodology or applications. Their work "has been no less than defining and transforming." (ISI)

Statistical Analysis with Missing Data, Third Edition is an ideal textbook for upper undergraduate and/or beginning graduate level students of the subject. It is also an excellent source of information for applied statisticians and practitioners in government and industry.
An up-to-date, comprehensive treatment of a classic text on missing data in statistics

The topic of missing data has gained considerable attention in recent decades. This new edition by two acknowledged experts on the subject offers an up-to-date account of practical methodology for handling missing data problems. Blending theory and application, authors Roderick Little and Donald Rubin review historical approaches to the subject and describe simple methods for multivariate analysis with missing values. They then provide a coherent theory for analysis of problems based on likelihoods derived from statistical models for the data and the missing data mechanism, and then they apply the theory to a wide range of important missing data problems.

Statistical Analysis with Missing Data, Third Edition starts by introducing readers to the subject and approaches toward solving it. It looks at the patterns and mechanisms that create the missing data, as well as a taxonomy of missing data. It then goes on to examine missing data in experiments, before discussing complete-case and available-case analysis, including weighting methods. The new edition expands its coverage to include recent work on topics such as nonresponse in sample surveys, causal inference, diagnostic methods, and sensitivity analysis, among a host of other topics.
* An updated "classic" written by renowned authorities on the subject
* Features over 150 exercises (including many new ones)
* Covers recent work on important methods like multiple imputation, robust alternatives to weighting, and Bayesian methods
* Revises previous topics based on past student feedback and class experience
* Contains an updated and expanded bibliography
The authors were awarded The Karl Pearson Prize in 2017 by the International Statistical Institute, for a research contribution that has had profound influence on statistical theory, methodology or applications. Their work "has been no less than defining and transforming." (ISI)

Statistical Analysis with Missing Data, Third Edition is an ideal textbook for upper undergraduate and/or beginning graduate level students of the subject. It is also an excellent source of information for applied statisticians and practitioners in government and industry.
Über den Autor

Roderick J. A. Little, PhD., is Richard D. Remington Distinguished University Professor of Biostatistics, Professor of Statistics, and Research Professor, Institute for Social Research, at the University of Michigan.

Donald B. Rubin, PhD., is Professor, Yau Mathematical Sciences Center, Tsinghua University; Murray Shusterman Senior Research Fellow, Department of Statistical Science, Fox School of Business at Temple University; and Professor Emeritus, Harvard University.

Inhaltsverzeichnis

Preface to the Third Edition xi

Part I Overview and Basic Approaches 1

1 Introduction 3

1.1 The Problem of Missing Data 3

1.2 Missingness Patterns and Mechanisms 8

1.3 Mechanisms That Lead to Missing Data 13

1.4 A Taxonomy of Missing Data Methods 23

2 Missing Data in Experiments 29

2.1 Introduction 29

2.2 The Exact Least Squares Solution with Complete Data 30

2.3 The Correct Least Squares Analysis with Missing Data 32

2.4 Filling in Least Squares Estimates 33

2.4.1 Yates's Method 33

2.4.2 Using a Formula for the Missing Values 34

2.4.3 Iterating to Find the Missing Values 34

2.4.4 ANCOVA with Missing Value Covariates 35

2.5 Bartlett's ANCOVA Method 35

2.5.1 Useful Properties of Bartlett's Method 35

2.5.2 Notation 36

2.5.3 The ANCOVA Estimates of Parameters and Missing Y-Values 36

2.5.4 ANCOVA Estimates of the Residual Sums of Squares and the Covariance Matrix of ¿¿ 37

2.6 Least Squares Estimates of Missing Values by ANCOVA Using Only Complete-Data Methods 38

2.7 Correct Least Squares Estimates of Standard Errors and One Degree of Freedom Sums of Squares 40

2.8 Correct Least-Squares Sums of Squares with More Than One Degree of Freedom 42

3 Complete-Case and Available-Case Analysis, Including Weighting Methods 47

3.1 Introduction 47

3.2 Complete-Case Analysis 47

3.3 Weighted Complete-Case Analysis 50

3.3.1 Weighting Adjustments 50

3.3.2 Poststratification and Raking to Known Margins 58

3.3.3 Inference from Weighted Data 60

3.3.4 Summary of Weighting Methods 61

3.4 Available-Case Analysis 61

4 Single Imputation Methods 67

4.1 Introduction 67

4.2 Imputing Means from a Predictive Distribution 69

4.2.1 Unconditional Mean Imputation 69

4.2.2 Conditional Mean Imputation 70

4.3 Imputing Draws from a Predictive Distribution 73

4.3.1 Draws Based on Explicit Models 73

4.3.2 Draws Based on Implicit Models - Hot Deck Methods 76

4.4 Conclusion 81

5 Accounting for Uncertainty from Missing Data 85

5.1 Introduction 85

5.2 Imputation Methods that Provide Valid Standard Errors from a Single Filled-in Data Set 86

5.3 Standard Errors for Imputed Data by Resampling 90

5.3.1 Bootstrap Standard Errors 90

5.3.2 Jackknife Standard Errors 92

5.4 Introduction to Multiple Imputation 95

5.5 Comparison of Resampling Methods and Multiple Imputation 100

Part II Likelihood-Based Approaches to the Analysis of Data with Missing Values 107

6 Theory of Inference Based on the Likelihood Function 109

6.1 Review of Likelihood-Based Estimation for Complete Data 109

6.1.1 Maximum Likelihood Estimation 109

6.1.2 Inference Based on the Likelihood 118

6.1.3 Large Sample Maximum Likelihood and Bayes Inference 119

6.1.4 Bayes Inference Based on the Full Posterior Distribution 126

6.1.5 Simulating Posterior Distributions 130

6.2 Likelihood-Based Inference with Incomplete Data 132

6.3 A Generally Flawed Alternative to Maximum Likelihood: Maximizing over the Parameters and the Missing Data 141

6.3.1 The Method 141

6.3.2 Background 142

6.3.3 Examples 143

6.4 Likelihood Theory for Coarsened Data 145

7 Factored Likelihood Methods When the Missingness Mechanism Is Ignorable 151

7.1 Introduction 151

7.2 Bivariate Normal Data with One Variable Subject to Missingness: ML Estimation 153

7.2.1 ML Estimates 153

7.2.2 Large-Sample Covariance Matrix 157

7.3 Bivariate Normal Monotone Data: Small-Sample Inference 158

7.4 Monotone Missingness with More Than Two Variables 161

7.4.1 Multivariate Data with One Normal Variable Subject to Missingness 161

7.4.2 The Factored Likelihood for a General Monotone Pattern 162

7.4.3 ML Computation for Monotone Normal Data via the Sweep Operator 166

7.4.4 Bayes Computation forMonotone Normal Data via the Sweep Operator 174

7.5 Factored Likelihoods for Special Nonmonotone Patterns 175

8 Maximum Likelihood for General Patterns of Missing Data: Introduction and Theory with Ignorable Nonresponse 185

8.1 Alternative Computational Strategies 185

8.2 Introduction to the EM Algorithm 187

8.3 The E Step and The M Step of EM 188

8.4 Theory of the EM Algorithm 193

8.4.1 Convergence Properties of EM 193

8.4.2 EM for Exponential Families 196

8.4.3 Rate of Convergence of EM 198

8.5 Extensions of EM 200

8.5.1 The ECM Algorithm 200

8.5.2 The ECME and AECM Algorithms 205

8.5.3 The PX-EM Algorithm 206

8.6 Hybrid Maximization Methods 208

9 Large-Sample Inference Based on Maximum Likelihood Estimates 213

9.1 Standard Errors Based on The Information Matrix 213

9.2 Standard Errors via Other Methods 214

9.2.1 The Supplemented EM Algorithm 214

9.2.2 Bootstrapping the Observed Data 219

9.2.3 Other Large-Sample Methods 220

9.2.4 Posterior Standard Errors from Bayesian Methods 221

10 Bayes and Multiple Imputation 223

10.1 Bayesian Iterative Simulation Methods 223

10.1.1 Data Augmentation 223

10.1.2 The Gibbs' Sampler 226

10.1.3 Assessing Convergence of Iterative Simulations 230

10.1.4 Some Other Simulation Methods 231

10.2 Multiple Imputation 232

10.2.1 Large-Sample Bayesian Approximations of the Posterior Mean and Variance Based on a Small Number of Draws 232

10.2.2 Approximations Using Test Statistics or p-Values 235

10.2.3 Other Methods for Creating Multiple Imputations 238

10.2.4 Chained-Equation Multiple Imputation 241

10.2.5 Using Different Models for Imputation and Analysis 243

Part III Likelihood-Based Approaches to the Analysis of Incomplete Data: Some Examples 247

11 Multivariate Normal Examples, Ignoring the Missingness Mechanism 249

11.1 Introduction 249

11.2 Inference for a Mean Vector and Covariance Matrix with Missing Data Under Normality 249

11.2.1 The EM Algorithm for Incomplete Multivariate Normal Samples 250

11.2.2 Estimated Asymptotic Covariance Matrix of (¿ ¿ ) 252

11.2.3 Bayes Inference and Multiple Imputation for the Normal Model 253

11.3 The Normal Model with a Restricted Covariance Matrix 257

11.4 Multiple Linear Regression 264

11.4.1 Linear Regression with Missingness Confined to the Dependent Variable 264

11.4.2 More General Linear Regression Problems with Missing Data 266

11.5 A General Repeated-Measures Model with Missing Data 269

11.6 Time Series Models 273

11.6.1 Introduction 273

11.6.2 Autoregressive Models for Univariate Time Series with Missing Values 273

11.6.3 Kalman Filter Models 276

11.7 Measurement Error Formulated as Missing Data 277

12 Models for Robust Estimation 285

12.1 Introduction 285

12.2 Reducing the Influence of Outliers by Replacing the Normal Distribution by a Longer-Tailed Distribution 286

12.2.1 Estimation for a Univariate Sample 286

12.2.2 Robust Estimation of the Mean and Covariance Matrix with Complete Data 288

12.2.3 Robust Estimation of the Mean and Covariance Matrix from Data with Missing Values 290

12.2.4 Adaptive Robust Multivariate Estimation 291

12.2.5 Bayes Inference for the t Model 292

12.2.6 Further Extensions of the t Model 294

12.3 Penalized Spline of Propensity Prediction 298

13 Models for Partially Classified Contingency Tables, Ignoring the Missingness Mechanism 301

13.1 Introduction 301

13.2 Factored Likelihoods for Monotone Multinomial Data 302

13.2.1 Introduction 302

13.2.2 ML and Bayes for Monotone Patterns 303

13.2.3 Precision of Estimation 312

13.3 ML and Bayes Estimation for Multinomial Samples with General Patterns of Missingness 313

13.4 Loglinear Models for Partially Classified Contingency Tables 317

13.4.1 The Complete-Data Case 317

13.4.2 Loglinear Models for Partially Classified Tables 320

13.4.3 Goodness-of-Fit Tests for Partially Classified Data 326

14 Mixed Normal and Nonnormal Data with Missing Values, Ignoring the Missingness Mechanism 329

14.1 Introduction 329

14.2 The General Location Model 329

14.2.1 The Complete-DataModel and Parameter Estimates 329

14.2.2 ML Estimation with Missing Values 331

14.2.3 Details of the E Step Calculations 334

14.2.4 Bayes' Computation for the Unrestricted General Location Model 335

14.3 The General Location Model with Parameter Constraints 337

14.3.1 Introduction 337

14.3.2 Restricted Models for the Cell Means 340

14.3.3 LoglinearModels for the Cell Probabilities 340

14.3.4 Modifications to the Algorithms of Previous Sections to Accommodate Parameter Restrictions 340

14.3.5 SimplificationsWhen Categorical Variables are More Observed than Continuous Variables 343

14.4 Regression Problems InvolvingMixtures of Continuous and Categorical Variables 344

14.4.1 Normal Linear Regression with Missing Continuous or Categorical Covariates 344

14.4.2 Logistic Regression with Missing Continuous or Categorical Covariates 346

14.5 Further Extensions of the General Location Model 347

15 Missing Not at RandomModels 351

15.1 Introduction 351

15.2 Models with Known MNAR Missingness Mechanisms: Grouped and Rounded Data 355

15.3 Normal Models for MNAR Missing Data 362

15.3.1 Normal...

Details
Erscheinungsjahr: 2019
Fachbereich: Wahrscheinlichkeitstheorie
Genre: Mathematik
Rubrik: Naturwissenschaften & Technik
Medium: Buch
Reihe: Wiley Series in Probability and Statistics
Inhalt: 462 S.
ISBN-13: 9780470526798
ISBN-10: 0470526793
Sprache: Englisch
Herstellernummer: 14552679000
Einband: Gebunden
Autor: Little, Roderick J. A.
Rubin, Donald B.
Auflage: 3. Auflage
Hersteller: Wiley John + Sons
Maße: 235 x 157 x 29 mm
Von/Mit: Roderick J. A. Little (u. a.)
Erscheinungsdatum: 24.05.2019
Gewicht: 0,817 kg
Artikel-ID: 108664329
Über den Autor

Roderick J. A. Little, PhD., is Richard D. Remington Distinguished University Professor of Biostatistics, Professor of Statistics, and Research Professor, Institute for Social Research, at the University of Michigan.

Donald B. Rubin, PhD., is Professor, Yau Mathematical Sciences Center, Tsinghua University; Murray Shusterman Senior Research Fellow, Department of Statistical Science, Fox School of Business at Temple University; and Professor Emeritus, Harvard University.

Inhaltsverzeichnis

Preface to the Third Edition xi

Part I Overview and Basic Approaches 1

1 Introduction 3

1.1 The Problem of Missing Data 3

1.2 Missingness Patterns and Mechanisms 8

1.3 Mechanisms That Lead to Missing Data 13

1.4 A Taxonomy of Missing Data Methods 23

2 Missing Data in Experiments 29

2.1 Introduction 29

2.2 The Exact Least Squares Solution with Complete Data 30

2.3 The Correct Least Squares Analysis with Missing Data 32

2.4 Filling in Least Squares Estimates 33

2.4.1 Yates's Method 33

2.4.2 Using a Formula for the Missing Values 34

2.4.3 Iterating to Find the Missing Values 34

2.4.4 ANCOVA with Missing Value Covariates 35

2.5 Bartlett's ANCOVA Method 35

2.5.1 Useful Properties of Bartlett's Method 35

2.5.2 Notation 36

2.5.3 The ANCOVA Estimates of Parameters and Missing Y-Values 36

2.5.4 ANCOVA Estimates of the Residual Sums of Squares and the Covariance Matrix of ¿¿ 37

2.6 Least Squares Estimates of Missing Values by ANCOVA Using Only Complete-Data Methods 38

2.7 Correct Least Squares Estimates of Standard Errors and One Degree of Freedom Sums of Squares 40

2.8 Correct Least-Squares Sums of Squares with More Than One Degree of Freedom 42

3 Complete-Case and Available-Case Analysis, Including Weighting Methods 47

3.1 Introduction 47

3.2 Complete-Case Analysis 47

3.3 Weighted Complete-Case Analysis 50

3.3.1 Weighting Adjustments 50

3.3.2 Poststratification and Raking to Known Margins 58

3.3.3 Inference from Weighted Data 60

3.3.4 Summary of Weighting Methods 61

3.4 Available-Case Analysis 61

4 Single Imputation Methods 67

4.1 Introduction 67

4.2 Imputing Means from a Predictive Distribution 69

4.2.1 Unconditional Mean Imputation 69

4.2.2 Conditional Mean Imputation 70

4.3 Imputing Draws from a Predictive Distribution 73

4.3.1 Draws Based on Explicit Models 73

4.3.2 Draws Based on Implicit Models - Hot Deck Methods 76

4.4 Conclusion 81

5 Accounting for Uncertainty from Missing Data 85

5.1 Introduction 85

5.2 Imputation Methods that Provide Valid Standard Errors from a Single Filled-in Data Set 86

5.3 Standard Errors for Imputed Data by Resampling 90

5.3.1 Bootstrap Standard Errors 90

5.3.2 Jackknife Standard Errors 92

5.4 Introduction to Multiple Imputation 95

5.5 Comparison of Resampling Methods and Multiple Imputation 100

Part II Likelihood-Based Approaches to the Analysis of Data with Missing Values 107

6 Theory of Inference Based on the Likelihood Function 109

6.1 Review of Likelihood-Based Estimation for Complete Data 109

6.1.1 Maximum Likelihood Estimation 109

6.1.2 Inference Based on the Likelihood 118

6.1.3 Large Sample Maximum Likelihood and Bayes Inference 119

6.1.4 Bayes Inference Based on the Full Posterior Distribution 126

6.1.5 Simulating Posterior Distributions 130

6.2 Likelihood-Based Inference with Incomplete Data 132

6.3 A Generally Flawed Alternative to Maximum Likelihood: Maximizing over the Parameters and the Missing Data 141

6.3.1 The Method 141

6.3.2 Background 142

6.3.3 Examples 143

6.4 Likelihood Theory for Coarsened Data 145

7 Factored Likelihood Methods When the Missingness Mechanism Is Ignorable 151

7.1 Introduction 151

7.2 Bivariate Normal Data with One Variable Subject to Missingness: ML Estimation 153

7.2.1 ML Estimates 153

7.2.2 Large-Sample Covariance Matrix 157

7.3 Bivariate Normal Monotone Data: Small-Sample Inference 158

7.4 Monotone Missingness with More Than Two Variables 161

7.4.1 Multivariate Data with One Normal Variable Subject to Missingness 161

7.4.2 The Factored Likelihood for a General Monotone Pattern 162

7.4.3 ML Computation for Monotone Normal Data via the Sweep Operator 166

7.4.4 Bayes Computation forMonotone Normal Data via the Sweep Operator 174

7.5 Factored Likelihoods for Special Nonmonotone Patterns 175

8 Maximum Likelihood for General Patterns of Missing Data: Introduction and Theory with Ignorable Nonresponse 185

8.1 Alternative Computational Strategies 185

8.2 Introduction to the EM Algorithm 187

8.3 The E Step and The M Step of EM 188

8.4 Theory of the EM Algorithm 193

8.4.1 Convergence Properties of EM 193

8.4.2 EM for Exponential Families 196

8.4.3 Rate of Convergence of EM 198

8.5 Extensions of EM 200

8.5.1 The ECM Algorithm 200

8.5.2 The ECME and AECM Algorithms 205

8.5.3 The PX-EM Algorithm 206

8.6 Hybrid Maximization Methods 208

9 Large-Sample Inference Based on Maximum Likelihood Estimates 213

9.1 Standard Errors Based on The Information Matrix 213

9.2 Standard Errors via Other Methods 214

9.2.1 The Supplemented EM Algorithm 214

9.2.2 Bootstrapping the Observed Data 219

9.2.3 Other Large-Sample Methods 220

9.2.4 Posterior Standard Errors from Bayesian Methods 221

10 Bayes and Multiple Imputation 223

10.1 Bayesian Iterative Simulation Methods 223

10.1.1 Data Augmentation 223

10.1.2 The Gibbs' Sampler 226

10.1.3 Assessing Convergence of Iterative Simulations 230

10.1.4 Some Other Simulation Methods 231

10.2 Multiple Imputation 232

10.2.1 Large-Sample Bayesian Approximations of the Posterior Mean and Variance Based on a Small Number of Draws 232

10.2.2 Approximations Using Test Statistics or p-Values 235

10.2.3 Other Methods for Creating Multiple Imputations 238

10.2.4 Chained-Equation Multiple Imputation 241

10.2.5 Using Different Models for Imputation and Analysis 243

Part III Likelihood-Based Approaches to the Analysis of Incomplete Data: Some Examples 247

11 Multivariate Normal Examples, Ignoring the Missingness Mechanism 249

11.1 Introduction 249

11.2 Inference for a Mean Vector and Covariance Matrix with Missing Data Under Normality 249

11.2.1 The EM Algorithm for Incomplete Multivariate Normal Samples 250

11.2.2 Estimated Asymptotic Covariance Matrix of (¿ ¿ ) 252

11.2.3 Bayes Inference and Multiple Imputation for the Normal Model 253

11.3 The Normal Model with a Restricted Covariance Matrix 257

11.4 Multiple Linear Regression 264

11.4.1 Linear Regression with Missingness Confined to the Dependent Variable 264

11.4.2 More General Linear Regression Problems with Missing Data 266

11.5 A General Repeated-Measures Model with Missing Data 269

11.6 Time Series Models 273

11.6.1 Introduction 273

11.6.2 Autoregressive Models for Univariate Time Series with Missing Values 273

11.6.3 Kalman Filter Models 276

11.7 Measurement Error Formulated as Missing Data 277

12 Models for Robust Estimation 285

12.1 Introduction 285

12.2 Reducing the Influence of Outliers by Replacing the Normal Distribution by a Longer-Tailed Distribution 286

12.2.1 Estimation for a Univariate Sample 286

12.2.2 Robust Estimation of the Mean and Covariance Matrix with Complete Data 288

12.2.3 Robust Estimation of the Mean and Covariance Matrix from Data with Missing Values 290

12.2.4 Adaptive Robust Multivariate Estimation 291

12.2.5 Bayes Inference for the t Model 292

12.2.6 Further Extensions of the t Model 294

12.3 Penalized Spline of Propensity Prediction 298

13 Models for Partially Classified Contingency Tables, Ignoring the Missingness Mechanism 301

13.1 Introduction 301

13.2 Factored Likelihoods for Monotone Multinomial Data 302

13.2.1 Introduction 302

13.2.2 ML and Bayes for Monotone Patterns 303

13.2.3 Precision of Estimation 312

13.3 ML and Bayes Estimation for Multinomial Samples with General Patterns of Missingness 313

13.4 Loglinear Models for Partially Classified Contingency Tables 317

13.4.1 The Complete-Data Case 317

13.4.2 Loglinear Models for Partially Classified Tables 320

13.4.3 Goodness-of-Fit Tests for Partially Classified Data 326

14 Mixed Normal and Nonnormal Data with Missing Values, Ignoring the Missingness Mechanism 329

14.1 Introduction 329

14.2 The General Location Model 329

14.2.1 The Complete-DataModel and Parameter Estimates 329

14.2.2 ML Estimation with Missing Values 331

14.2.3 Details of the E Step Calculations 334

14.2.4 Bayes' Computation for the Unrestricted General Location Model 335

14.3 The General Location Model with Parameter Constraints 337

14.3.1 Introduction 337

14.3.2 Restricted Models for the Cell Means 340

14.3.3 LoglinearModels for the Cell Probabilities 340

14.3.4 Modifications to the Algorithms of Previous Sections to Accommodate Parameter Restrictions 340

14.3.5 SimplificationsWhen Categorical Variables are More Observed than Continuous Variables 343

14.4 Regression Problems InvolvingMixtures of Continuous and Categorical Variables 344

14.4.1 Normal Linear Regression with Missing Continuous or Categorical Covariates 344

14.4.2 Logistic Regression with Missing Continuous or Categorical Covariates 346

14.5 Further Extensions of the General Location Model 347

15 Missing Not at RandomModels 351

15.1 Introduction 351

15.2 Models with Known MNAR Missingness Mechanisms: Grouped and Rounded Data 355

15.3 Normal Models for MNAR Missing Data 362

15.3.1 Normal...

Details
Erscheinungsjahr: 2019
Fachbereich: Wahrscheinlichkeitstheorie
Genre: Mathematik
Rubrik: Naturwissenschaften & Technik
Medium: Buch
Reihe: Wiley Series in Probability and Statistics
Inhalt: 462 S.
ISBN-13: 9780470526798
ISBN-10: 0470526793
Sprache: Englisch
Herstellernummer: 14552679000
Einband: Gebunden
Autor: Little, Roderick J. A.
Rubin, Donald B.
Auflage: 3. Auflage
Hersteller: Wiley John + Sons
Maße: 235 x 157 x 29 mm
Von/Mit: Roderick J. A. Little (u. a.)
Erscheinungsdatum: 24.05.2019
Gewicht: 0,817 kg
Artikel-ID: 108664329
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