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Extremes in Random Fields: A Theory and Its Applications

Benjamin Yakir
Publisher: 
Wiley
Publication Date: 
2013
Number of Pages: 
250
Format: 
Hardcover
Series: 
Wiley Series in Probability and Statistics
Price: 
105.00
ISBN: 
9781118620205
Category: 
Monograph
We do not plan to review this book.

Preface xi

Acknowledgments xv

Part I THEORY 1

1 Introduction 3

1.1 Distribution of extremes in random fields 3

1.2 Outline of the method 7

1.3 Gaussian and asymptotically Gaussian random fields 9

1.4 Applications 11

2 Basic examples 15

2.1 Introduction 15

2.2 A power-one sequential test 15

2.3 A kernel-based scanning statistic 24

2.4 Other methods 38

3 Approximation of the local rate 41

3.1 Introduction 41

3.2 Preliminary localization and approximation 43

3.3 Measure transformation 51

3.4 Application of the localization theorem 55

3.5 Integration

4 From the local to the global 71

4.1 Introduction 71

4.2 Poisson approximation of probabilities 72

4.3 Average run length to false alarm 78

5 The localization theorem 87

5.1 Introduction 87

5.2 A simplified version of the localization theorem 88

5.3 The localization theorem 90

5.4 A local limit theorem 95

5.5 Edge effects and higher order approximations 100

Part II APPLICATIONS 103

6 Nonparametric tests: Kolmogorov–Smirnov and Peacock 105

6.1 Introduction 105

6.2 Analysis of the one-dimensional case 109

6.3 Peacock’s test 120

6.4 Relations to scanning statistics 123

7 Copy number variations 125

7.1 Introduction 125

7.2 The statistical model 127

7.3 Analysis of statistical properties 131

7.4 The false discovery rate 140

8 Sequential monitoring of an image 143

8.1 Introduction 143

8.2 The statistical model 146

8.3 Analysis of statistical properties 148

8.4 Optimal change-point detection 161

9 Buffer overflow 165

9.1 Introduction 165

9.2 The statistical model 169

9.3 Analysis of statistical properties 172

9.4 Heavy tail distribution, long-range dependence, and self-similarity 186

10 Computing Pickands’ constants 191

10.1 Introduction 191

10.2 Representations of constants 196

10.3 Analysis of statistical error 199

10.4 Enumerating the effect of local fluctuations 204

Appendix: Mathematical background 209

A.1 Transforms 209

A.2 Approximations of sum of independent random elements 211

A.3 Concentration inequalities 214

A.4 Random walks 215

A.5 Renewal theory 215

A.6 The Gaussian distribution 216

A.7 Large sample inference 217

A.8 Integration 218

A.9 Poisson approximation 219

A.10 Convexity 220

References 221

Index 223