
Introduction to Probability
Models and Applications
By: Markos V. Koutras, Konstadinos G. Politis, Narayanaswamy Balakrishnan
eText | 4 April 2019 | Edition Number 1
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An essential guide to the concepts of probability theory that puts the focus on models and applications
Introduction to Probability offers an authoritative text that presents the main ideas and concepts, as well as the theoretical background, models, and applications of probability. The authors--noted experts in the field--include a review of problems where probabilistic models naturally arise, discuss the appropriate statistical methods, and explain how these models fit into the data presented. To aid in understanding, the book presents many real-world exercises and solutions that appear after each section within a chapter. A wide-range of topics are covered that include concepts of probability, univariate discrete distribution, univariate continuous distributions, bivariate discrete random variables, bivariate continuous random variables, stochastic independence-multivariate random variables, and many more. Designed as a useful guide, the text contains theory of probability, definitions, charts, examples, illustrations, problems and solutions, and a glossary. This important text:
- Includes classroom-tested problems and solutions to probability exercises
- Highlights real-world exercises designed to make clear the concepts presented
- Uses Matlab software to illustrate the text’s computer exercises
- Features applications representing worldwide situations and processes
- Offers a Student Solutions Manual that contains select solutions to numerous exercises found in the book
Written for students majoring in statistics, engineering, operations research, computer science, physics, and mathematics, Introduction to Probability: Models and Applications is an accessible text that explores the basic concepts of probability and includes detailed information on models and applications.
on
Preface xi
1 The Concept of Probability 1
1.1 Chance Experiments - Sample Spaces 2
1.2 Operations Between Events 11
1.3 Probability as Relative Frequency 27
1.4 Axiomatic Definition of Probability 38
1.5 Properties of Probability 45
1.6 The Continuity Property of Probability 54
1.7 Basic Concepts and Formulas 60
1.8 Computational Exercises 61
1.9 Self-assessment Exercises 63
1.9.1 True-False Questions 63
1.9.2 Multiple Choice Questions 64
1.10 Review Problems 67
1.11 Applications 71
1.11.1 System Reliability 71
Key Terms 77
2 Finite Sample Spaces - Combinatorial Methods 79
2.1 Finite Sample Spaces with Events of Equal Probability 80
2.2 Main Principles of Counting 89
2.3 Permutations 96
2.4 Combinations 105
2.5 The Binomial Theorem 123
2.6 Basic Concepts and Formulas 132
2.7 Computational Exercises 133
2.8 Self-Assessment Exercises 139
2.8.1 True-False Questions 139
2.8.2 Multiple Choice Questions 140
2.9 Review Problems 143
2.10 Applications 150
2.10.1 Estimation of Population Size: Capture-Recapture Method 150
Key Terms 152
3 Conditional Probability - Independent Events 153
3.1 Conditional Probability 154
3.2 The Multiplicative Law of Probability 166
3.3 The Law of Total Probability 174
3.4 Bayes' Formula 183
3.5 Independent Events 189
3.6 Basic Concepts and Formulas 206
3.7 Computational Exercises 207
3.8 Self-assessment Exercises 210
3.8.1 True-False Questions 210
3.8.2 Multiple Choice Questions 211
3.9 Review Problems 214
3.10 Applications 220
3.10.1 Diagnostic and Screening Tests 220
Key Terms 223
4 Discrete Random Variables and Distributions 225
4.1 Random Variables 226
4.2 Distribution Functions 232
4.3 Discrete Random Variables 247
4.4 Expectation of a Discrete Random Variable 261
4.5 Variance of a Discrete Random Variable 281
4.6 Some Results for Expectation and Variance 293
4.7 Basic Concepts and Formulas 302
4.8 Computational Exercises 303
4.9 Self-Assessment Exercises 309
4.9.1 True-False Questions 309
4.9.2 Multiple Choice Questions 310
4.10 Review Problems 313
4.11 Applications 317
4.11.1 Decision Making Under Uncertainty 317
Key Terms 320
5 Some Important Discrete Distributions 321
5.1 Bernoulli Trials and Binomial Distribution 322
5.2 Geometric and Negative Binomial Distributions 337
5.3 The Hypergeometric Distribution 358
5.4 The Poisson Distribution 371
5.5 The Poisson Process 385
5.6 Basic Concepts and Formulas 394
5.7 Computational Exercises 395
5.8 Self-Assessment Exercises 399
5.8.1 True-False Questions 399
5.8.2 Multiple Choice Questions 401
5.9 Review Problems 403
5.10 Applications 411
5.10.1 Overbooking 411
Key Terms 414
6 Continuous Random Variables 415
6.1 Density Functions 416
6.2 Distribution for a Function of a Random Variable 431
6.3 Expectation and Variance 442
6.4 Additional Useful Results for the Expectation 451
6.5 Mixed Distributions 459
6.6 Basic Concepts and Formulas 468
6.7 Computational Exercises 469
6.8 Self-Assessment Exercises 474
6.8.1 True-False Questions 474
6.8.2 Multiple Choice Questions 476
6.9 Review Problems 479
6.10 Applications 486
6.10.1 Profit Maximization 486
Key Terms 490
7 Some Important Continuous Distributions 491
7.1 The Uniform Distribution 492
7.2 The Normal Distribution 501
7.3 The Exponential Distribution 531
7.4 Other Continuous Distributions 542
7.4.1 The Gamma Distribution 543
7.4.2 The Beta Distribution 548
7.5 Basic Concepts and Formulas 555
7.6 Computational Exercises 557
7.7 Self-Assessment Exercises 561
7.7.1 True-False Questions 561
7.7.2 Multiple Choice Questions 562
7.8 Review Problems 565
7.9 Applications 573
7.9.1 Transforming Data: The Lognormal Distribution 573
Key Terms 578
Appendix A Sums and Products 579
Appendix B Distribution Function of the Standard Normal Distribution 593
Appendix C Simulation 595
Appendix D Discrete and Continuous Distributions 599
Bibliography 603
Index 605
ISBN: 9781118548493
ISBN-10: 1118548493
Series: Wiley Series in Probability and Statistics
Published: 4th April 2019
Format: ePUB
Language: English
Audience: Professional and Scholarly
Publisher: Wiley
Country of Publication: US
Edition Number: 1
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