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Probability with R : an introduction with computer science applications

Probability with R : an introduction with computer science applications

자료유형
단행본
개인저자
Horgan, Jane M. , 1947-.
서명 / 저자사항
Probability with R : an introduction with computer science applications / Jane M. Horgan.
발행사항
Hoboken, N.J. :   Wiley ,   c2009.  
형태사항
xviii, 393 p. : ill. ; 25 cm.
ISBN
9780470280737 (cloth) 0470280735 (cloth)
서지주기
Includes bibliographical references and index.
일반주제명
Computer science -- Mathematics. Probabilities. R (Computer program language)
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020 ▼a 0470280735 (cloth)
035 ▼a (OCoLC)ocn228701418
035 ▼a (OCoLC)228701418
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090 ▼a 004.015113 ▼b H811p
100 1 ▼a Horgan, Jane M. , ▼d 1947-.
245 1 0 ▼a Probability with R : ▼b an introduction with computer science applications / ▼c Jane M. Horgan.
260 ▼a Hoboken, N.J. : ▼b Wiley , ▼c c2009.
300 ▼a xviii, 393 p. : ▼b ill. ; ▼c 25 cm.
504 ▼a Includes bibliographical references and index.
650 0 ▼a Computer science ▼x Mathematics.
650 0 ▼a Probabilities.
650 0 ▼a R (Computer program language)
945 ▼a KLPA

소장정보

No. 소장처 청구기호 등록번호 도서상태 반납예정일 예약 서비스
No. 1 소장처 과학도서관/Sci-Info(2층서고)/ 청구기호 004.015113 H811p 등록번호 121195842 도서상태 대출가능 반납예정일 예약 서비스 B M

컨텐츠정보

목차

Preface.

I. THE R LANGUAGE.

1. Basics of R.

1.1 What is R?

1.2 Installing R.

1.3 R Documentation.

1.4 Basics.

1.5 Getting Help.

1.6 Data Entry.

1.7 Tidying Up.

1.8 Saving and Retrieving the Workspace.

2. Summarising Statistical Data.

2.1 Measures of Central Tendency.

2.2 Measures of Dispersion.

2.3 Overall Summary Statistics.

2.4 Programming in R.

3. Graphical Displays.

3.1 Boxplots.

3.2 Histograms.

3.3 Stem and Leaf.

3.4 Scatter Plots.

3.5 Graphical Display vs Summary Statistics.

II: FUNDAMENTALS OF PROBABILITY.

4. Basics.

4.1 Experiments, Sample Spaces and Events.

4.2 Classical Approach to Probability.

4.3 Permutations and Combinations.

4.4 The Birthday Problem.

4.5 Balls and Bins.

4.6 Relative Frequency Approach to Probability.

4.7 Simulating Probabilities.

5. Rules of Probability.

5.1 Probability and Sets.

5.2 Mutually Exclusive Events.

5.3 Complementary Events.

5.4 Axioms of Probability.

5.5 Properties of Probability.

6. Conditional Probability.

6.1 Multiplication Law of Probability.

6.2 Independent Events.

6.3 The Intel Fiasco.

6.4 Law of Total Probability.

6.5 Trees.

7. Posterior Probability and Bayes.

7.1 Bayes’ Rule.

7.2 Hardware Fault Diagnosis.

7.3 Machine Learning.

7.4 The Fundamental Equation of Machine Translation.

8. Reliability.

8.1 Series Systems.

8.2 Parallel Systems.

8.3 Reliability of a System.

8.4 Series-Parallel Systems.

8.5 The Design of Systems.

8.6 The General System.

III: DISCRETE DISTRIBUTIONS.

9. Discrete Distributions.

9.1 Discrete Random Variables.

9.2 Cumulative Distribution Function.

9.3 Some Simple Discrete Distributions.

9.4 Benford’s Law.

9.5 Summarising Random Variables: Expectation.

9.6 Properties of Expectations.

9.7 Simulating Expectation for Discrete Random Variables.

10. The Geometric Distribution.

10.1 Geometric Random Variables.

10.2 Cumulative Distribution Function.

10.3 The Quantile Function.

10.4 Geometric Expectations.

10.5 Simulating Geometric Probabilities and Expectations.

10.6 Amnesia.

10.7 Project.

11. The Binomial Distribution.

11.1 Binomial Probabilities.

11.2 Binomial Random Variables.

11.3 Cumulative Distribution Function.

11.4 The Quantile Function.

11.5 Machine Learning and the Binomial Distribution.

11.6 Binomial Expectations.

11.7 Simulating Binomial Probabilities and Expectations.

11.8 Project.

12. The Hypergeometric Distribution.

12.1 Hypergeometric Random Variables.

12.2 Cumulative Distribution Function.

12.3 The Lottery.

12.4 Hypergeometric or Binomial?.

12.5 Project.

13. The Poisson Distribution.

13.1 Death by Horse Kick.

13.2 Limiting Binomial Distribution.

13.3 Random Events in Time and Space.

13.4 Probability Density Function.

13.5 Cumulative Distribution Function.

13.6 The Quantile Function.

13.7 Estimating Software Reliability.

13.8 Modelling Defects in Integrated Circuits.

13.9 Simulating Poisson Probabilities.

13.10Projects.

14. Sampling Inspection Schemes.

14.1 Introduction.

14.2 Single Sampling Inspection Schemes.

14.3 Acceptance Probabilities.

14.4 Simulating Sampling Inspections Schemes.

14.5 Operating Characteristic Curve.

14.6 Producer’s and Consumer’s Risks.

14.7 Design of Sampling Schemes.

14.8 Rectifying Sampling Inspection Schemes.

14.9 Average Outgoing Quality.

14.10 Double Sampling Inspection Schemes.

14.11 Average Sample Size.

14.12 Single vs Double Schemes.

14.13 Project.

IV. CONTINUOUS DISTRIBUTIONS.

15. Continuous Distributions.

15.1 Continuous Random Variables.

15.2 Probability Density Function.

15.3 Cumulative Distribution Function.

15.4 The Uniform Distribution.

15.5 Expectation of a Continuous Random Variable.

15.6 Simulating Continuous Variables.

16. The Exponential Distribution.

16.1 Probability Density Function Of Waiting Times.

16.2 Cumulative Distribution Function.

16.3 Quantiles.

16.4 Exponential Expectations.

16.5 Simulating the Exponential Distribution.

16.6 Amnesia.

16.7 Simulating Markov.

17. Applications of the Exponential Distribution.

17.1 Failure Rate and Reliability.

17.2 Modelling Response Times.

17.3 Queue Lengths.

17.4 Average Response Time.

17.5 Extensions of the M/M/1 queue.

18. The Normal Distribution.

18.1 The Normal Probability Density Function.

18.2 The Cumulative Distribution Function.

18.3 Quantiles.

18.4 The Standard Normal Distribution.

18.5 Achieving Normality; Limiting Distributions.

18.6 Project in R.

19. Process Control.

19.1 Control Charts.

19.2 Cusum Charts.

19.3 Charts for Defective Rates.

19.4 Project.

V. TAILING OFF.

20. Markov and Chebyshev Bound.

20.1 Markov’s Inequality.

20.2 Algorithm Run-Time.

20.3 Chebyshev’s Inequality.

Appendix 1: Variance derivations.

Appendix 2: Binomial approximation to the hypergeometric.

Appendix 3: Standard Normal Tables.


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