Intermediate Probability pdf epub mobi txt 电子书 下载 2024


Intermediate Probability

简体网页||繁体网页
Marc S. Paolella
John Wiley & Sons Ltd
2007
415
1396.00元
HRD
9780470026373

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Intermediate Probability epub 下载 mobi 下载 pdf 下载 txt 电子书 下载 2024

Intermediate Probability epub 下载 mobi 下载 pdf 下载 txt 电子书 下载 2024

Intermediate Probability pdf epub mobi txt 电子书 下载 2024



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This book is a sequel to Volume I, Fundamental Probability: A Computational Approach

(2006), http://www.wiley.com/WileyCDA/WileyTitle/productCd-04

70025948.html, which covered the topics typically associated with a first course in

probability at an undergraduate level. This volume is particularly suited to beginning

graduate students in statistics, finance and econometrics, and can be used independently

of Volume I, although references are made to it. For example, the third equation

of Chapter 2 inVolume I is referred to as (I.2.3), whereas (2.3) means the third equation of

Chapter 2 of the present book. Similarly, a reference to Section I.2.3 means Section 3 of

Chapter 2 in Volume I.

The presentation style is the same as that in Volume I. In particular, computational

aspects are incorporated throughout. Programs in Matlab are given for all computations

in the text, and the book’s website will provide these programs, as well as translations

in the R language. Also, as in Volume I, emphasis is placed on solving more practical

and challenging problems than is often done in such a course. As a case in point,

Chapter 1 emphasizes the use of characteristic functions for calculating the density

and distribution of random variables by way of (i) numerically computing the integrals

involved in the inversion formulae, and (ii) the use of the fast Fourier transform. As

many students may not be comfortable with the required mathematical machinery, a

stand-alone introduction to complex numbers, Fourier series and the discrete Fourier

transform are given as well.

The remaining chapters, in brief, are as follows.

Chapter 2 uses the tools developed in Chapter 1 to calculate the distribution of sums

of random variables. I start with the usual, algebraically trivial examples using the

moment generating function (m.g.f.) of independent and identically distributed (i.i.d)

random variables (r.v.s), such as gamma and Bernoulli. More interesting and useful,

but less commonly discussed, is the question of how to compute the distribution of a

sum of independent r.v.s when the resulting m.g.f. is not ‘recognizable’, e.g., a sum of

independent gamma r.v.s with different scale parameters, or the sum of binomial r.v.s

with differing values of p, or the sum of independent normal and Laplace r.v.s.

Chapter 3 presents the multivariate normal distribution. Along with numerous examples

and detailed coverage of the standard topics, computational methods for calculating

the c.d.f. of the bivariate case are discussed, as well as partial correlation,which is required for understanding the partial autocorrelation function in time series

analysis.

Chapter 4 is on asymptotics. As some of this material is mathematically more challenging,

the emphasis is on providing careful and highly detailed proofs of basic results

and as much intuition as possible.

Chapter 5 gives a basic introduction to univariate and multivariate saddlepoint

approximations, which allow us to quickly and accurately invert the m.g.f. of sums

of independent random variables without requiring the numerical integration (and

occasional numeric problems) associated with the inversion formulae. The methods

complement those developed in Chapters 1 and 2, and will be used extensively in

Chapter 10. The beauty, simplicity, and accuracy of this method are reason enough to

discuss it, but its applicability to such a wide range of topics is what should make this

methodology as much of a standard topic as is the central limit theorem. Much of the

section on multivariate saddlepoint methods was written by my graduate student and

fellow researcher, Simon Broda.

Chapter 6 deals with order statistics. The presentation is quite detailed, with numerous

examples, as well as some results which are not often seen in textbooks, including

a brief discussion of order statistics in the non-i.i.d. case.

Chapter 7 is somewhat unique and provides an overview on how to help ‘classify’

some of the hundreds of distributions available. Of course, not all methods can be

covered, but the ideas of nesting, generalizing, and asymmetric extensions are introduced.

Mixture distributions are also discussed in detail, leading up to derivation of

the variance–gamma distribution.

Chapter 8 is about the stable Paretian distribution, with emphasis on its computation,

basic properties, and uses. With the unprecedented growth of it in applications (due

primarily to its computational complexity having been overcome), this should prove to

be a useful and timely topic well worth covering. Sections 8.3.2 and 8.3.3 were written

together with my graduate student and fellow researcher, Yianna Tchopourian.

Chapter 9 is dedicated to the (generalized) inverse Gaussian and (generalized) hyperbolic

distributions, and their connections. In addition to being mathematically intriguing,

they are well suited for modelling a wide variety of phenomena. The author of

this chapter, and all its problems and solutions, is my academic colleague Walther

Paravicini.

Chapter 10 provides a quite detailed account of the singly and doubly noncentral

F, t and beta distributions. For each, several methods for the exact calculation of the

distribution are provided, as well as discussion of approximate methods, most notably

the saddlepoint approximation.

The Appendix contains a list of tables, including those for abbreviations, special

functions, general notation, generating functions and inversion formulae, distribution

naming conventions, distributional subsets (e.g., χ2 ⊆ Gam and N ⊆ SαS), Student’s t

generalizations, noncentral distributions, relationships among major distributions, and

mixture relationships.

As in Volume I, the examples are marked with symbols to designate their relative

importance, with , and indicating low, medium and high importance, respectively.

Also as in Volume I, there are many exercises, and they are furnished with stars

to indicate their difficulty and/or amount of time required for solution. Solutions to all

exercises, in full detail, are available for instructors, as are lecture notes for beamerpresentation. As discussed in the Preface to Volume I, not everything in the text is

supposed to be (or could be) covered in the classroom. I prefer to use lecture time for

discussing the major results and letting students work on some problems (algebraically

and with a computer), leaving some derivations and examples for reading outside of

the classroom.

The companion website for the book is http://www.wiley.com/go/

intermediate.

Intermediate Probability 下载 mobi epub pdf txt 电子书

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