Monte Carlo Methods in Financial Engineering (Stochastic Modelling and Applied Probability) (v. 53) (Hardcover)

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Review
"Paul Glasserman has written an astonishingly good book that bridges financial engineering and the Monte Carlo method. The book will appeal to graduate students, researchers, and most of all, practicing financial engineers … You will want to have prior knowledge of both the Monte Carlo method and financial engineering. If you do, you will find the book to be a goldmine … So often, financial engineering texts are very theoretical. This book is not. The Monte Carlo method serves as a unifying theme that motivates practical discussions of how to implement real models on real trading floors. You will learn plenty of financial engineering amidst these pages. The writing is a pleasure to read. Topics are timely and relevant. Glasserman's is a must-have book for financial engineers." -Glyn Holton, Contingency AnalysisMathematical Reviews, 2004: "... this book is very comprehensive, up-to-date and useful tool for those who are interested in implementing Monte Carlo methods in a financial context." From the reviews: "This recent book is a valuable addition to the references devoted to Monte Carlo methods. … the author succeeded in choosing the most actual topics in financial engineering and in presenting them in an appropriate way by keeping a suitable balance between mathematical rigour and an audience friendly language. … To help the reader, three appendices provide basic results on convergence concepts … . A large bibliography of 358 entries accompanies this text. In short, the reader will find this book extremely lucid and useful." (Radu Theodorescu, Zentralblatt MATH, Vol. 1038 (13), 2004) "To keep it short, let me summarize the recension in one phrase: Paul Glausserman’s book is a ‘strong buy’ for everybody in the financial community. … one gets 596 pages full of valuable information on all aspects of Monte Carlo simulation. … Altogether, I can encourage everyone interested in Monte Carlo methods in finance to read the book. It is very well written … comes with a carefully selected bibliography (358 references) and a helpful index, thus making it really worth the buy." (Ralf Werner, OR – Spectrum Operations Research Spectrum, Issue 27, 2005) "Glasserman’s new book is a remarkable presentation of the current state of the art of Monte Carlo Methods in Financial Engineering. … lot of material which is sometimes hard to access has been composed into one volume. … a high quality monograph which is both suitable as a reference for practitioners and researchers as well as a textbook … . The list of references is by itself a valuable aspect. The refreshing writing style of the author is tailor-made for the thirsty reader … ." (Uwe Wystup, www.mathfinance.de, November, 2003) "Paul Glasserman has written an astonishingly good book that bridges financial engineering and the Monte Carlo method. The book will appeal to graduate students, researchers, and most of all, practicing financial engineers. It is an advanced book. … The presentation is masterful. … You will learn plenty of financial engineering amidst the pages. The writing is a pleasure to read. Topics are timely and relevant. Glasserman’s is a must-have book for financial engineers." (www.riskbook.com, Dezember, 2003) "This book is divided into three parts. … the aim of the author is … to give a precise description of the different techniques in order to facilitate their implementation. In my opinion, this book is a very comprehensive, up-to-date and useful tool for those who are interested in implementing Monte Carlo methods in a financial context." (Benjamin Jourdain, Mathematical Reviews, 2004g) "The publication of this book is an important event in computational finance. For many years, Monte Carlo methods have been successfully applied to solve diverse problems in financial mathematics. By publishing this book the author deserves much credit for a very good attempt to lift such applications to a new level. … the book may well become a major reference in the field of applications of Monte Carlo methods in financial engineering. This is because the book is well structured and well written … ." (A Zhigljavsky, Journal of the Operational Research Society, Vol. 57, 2006)

Product Description
Monte Carlo simulation has become an essential tool in the pricing of derivative securities and in risk management. These applications have, in turn, stimulated research into new Monte Carlo methods and renewed interest in some older techniques.

This book develops the use of Monte Carlo methods in finance and it also uses simulation as a vehicle for presenting models and ideas from financial engineering. It divides roughly into three parts. The first part develops the fundamentals of Monte Carlo methods, the foundations of derivatives pricing, and the implementation of several of the most important models used in financial engineering. The next part describes techniques for improving simulation accuracy and efficiency. The final third of the book addresses special topics: estimating price sensitivities, valuing American options, and measuring market risk and credit risk in financial portfolios.

The most important prerequisite is familiarity with the mathematical tools used to specify and analyze continuous-time models in finance, in particular the key ideas of stochastic calculus. Prior exposure to the basic principles of option pricing is useful but not essential.

The book is aimed at graduate students in financial engineering, researchers in Monte Carlo simulation, and practitioners implementing models in industry.

First Sentence:
This chapter's two parts develop key ideas from two fields, the intersection of which is the topic of this book. Read the first page Key Phrases - Statistically Improbable Phrases (SIPs): (learn more)
deflated bond prices, pathwise estimator, pathwise method, random tree method, discretizatiou error, likelihood ratio weights, control variate estimator, discrete drift, greater variance reduction, forward rate models, low estimator, high estimator, stratification direction, default tunes, optimal drift, option pricing applications, short rate models, variate estimators, lattice rules, variance reduction factors, dual estimates, likelihood ratio method, conditional oil, discretized process, inverse transform method Key Phrases - Capitalized Phrases (CAPs): (learn more)
Monte Carlo, Concluding Remarks, Conditioning Formula, Random Tree Methods, Continuous Rates, Gaussian Short Rate Models, Girsanov's Theorem, Regression Low, Simple Rates, Stochastic Mesh Methods New!
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Front Cover | Table of Contents | First Pages | Index | Back Cover | Surprise Me!

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20 Reviews 5 star:  (10) 4 star:  (3) 3 star:  (5) 2 star:  (2) 1 star:    (0)           Average Customer Review 4.0 out of 5 stars (20 customer reviews)		Share your thoughts with other customers: Create your own review
Most Helpful Customer Reviews   64 of 67 people found the following review helpful: 4.0 out of 5 stars An accessible overview of Monte Carlo methods in finance, July 30, 2004 By  Rama CONT (New York) - See all my reviews (REAL NAME)    This new book, written by an active contributor to the field of Monte Carlo methods in finance, summarizes the ongoing interaction between theory and practice in a way that is readily accessible to graduate students and practitioners in quantitative finance. The book is as self-contained as possible: basic notions on Monte Carlo simulation and option pricing are recalled in the first chapter and the second chapter explains how random number generators are designed. Chapter 3 explains how to generate sample paths for some commonly used stochastic models: multifactor Gaussian models, square root diffusions, diffusions with Poisson jumps, some examples of Lévy processes and the LIBOR market model. Instead of giving a general result and leaving the reader on his own, the author treats each example with a fair amount of detail. Chapter 4, which is the longest and probably the best chapter in the book, discusses variance reduction techniques. Variance reduction is what makes all the difference between a basic Monte Carlo simulation and a state-of-the-art algorithm incorporating the tricks of the trade. Apart from classical topics such as control variates, stratified sampling and importance sampling, the author (briefly) discusses more advanced topics such as the Weighted Monte Carlo method of Avellaneda et al., viewing it as a variance reduction method. While computation of prices as expectations are standard applications of the Monte Carlo methods, two other issues in finance have turned out to be more challenging to solve using Monte Carlo simulation: the computation of sensitivities ("Greeks") and the pricing of American options, which involves the maximization of conditional expectations. Chapter 7 deals with the computation of sensitivities using finite differences, pathwise derivatives and the likelihood ratio method. More advanced methods based on integration by parts ("Malliavin calculus") are only briefly mentioned in the conclusion to this chapter. Chapter 8 deals with the (Monte Carlo) pricing of American options, an evolving research topic in which Paul Glasserman has been an active contributor. The author has succeeded in summarizing in 60 pages a survey of various approaches: parametric methods, quantization methods, the (Broadie-Glasserman) stochastic mesh method, regression-based methods of Carriere-Longstaff-Schwartz and duality methods (Haugh-Kogan, Rogers). The presentation is somewhat biased towards the Broadie-Glasserman approach (which is understandable..), whereas the Carrière-Longstaff-Schwartz regression method seems to be the most popular one among practitioners. One can regret the absence of a systematic comparison between these various methods in terms of numerical performance but the chapter explains their interrelations, at least from a theoretical point of view. While most texts on Monte Carlo methods in finance have exclusively focused on option pricing, simulation of extreme events in view of VaR computation constitute another important application of Monte Carlo simulation. Chapter 9 deals with this topic and presents some importance sampling methods for simulating tail events, which turn out to be especially useful when simulating joint default events in credit risk models. A crash course on credit risk modeling is included in the chapter. The book is not written in a theorem-proof format but using an explanatory approach which I found quite pleasant, with lots of examples illustrating the results. This format seems suitable for students of financial engineering; mathematicians looking for proofs of convergence should look elsewhere. The level of generality of the results is just right for applications in finance: the author has avoided the pitfall of considering a too general framework and has chosen to focus on examples of stochastic processes actually used in financial engineering, which makes the text more understandable. Also, various simulation methods are compared by actually doing the simulations instead of simply discussing asymptotic convergence rates. What is lacking is perhaps a more systematic reference to bibliography to indicate where proofs of various results are to be found, which could be useful for PhD students or researchers consulting this book. One can always complain about topics which have been left out or lightly treated- weighted Monte Carlo, parallel computing, Malliavin calculus, quantization methods, point processes, LIBOR models with jumps,...-but the book is already 600 pages long and it seems retrospectively that it would have been difficult to include more material without greatly expanding the volume. I have no doubt that this book will find many interested readers among quants and graduate students in quantitative finance and can even serve as an introduction to quantitative finance for non-specialist readers with a good quantitative background. Comment Comment | Permalink | Was this review helpful to you? Yes No (Report this)   24 of 28 people found the following review helpful: 5.0 out of 5 stars An excellent overview, July 8, 2005 By  Dr. Lee D. Carlson (Baltimore, Maryland USA) - See all my reviews (TOP 100 REVIEWER)    (REAL NAME)       Monte Carlo simulations are extensively used not only in finance but also in network modeling, bioinformatics, radiation therapy planning, physics, and meteorology, to name a few. This book gives a good overview of how they are used in financial engineering, with particular emphasis on pricing American options and risk management. Aspiring financial engineers will find much that is helpful in the book, and after reading it should be able to apply the methodologies in the book in whatever financial institution they find themselves employed. The mathematics may be too formidable for a practical trader, but the book is targeted to readers who intend to work as financial engineers in a high-powered financial institution. Due to constraints of space, only the last two chapters will be reviewed here. The next-to-last chapter discusses the difficult problem of pricing American options, which the author introduces as an `embedded optimization problem': the value of an American option is found by finding the optimal expected discounted payoff, in order to find the best time to exercise the option. When applying Monte Carlo simulation, the author restricts himself to options that can only be exercised at a finite, fixed set of opportunities, with a discrete Markov chain used to model the underlying process representing the discounted payoff from the exercise of the option at a particular time. This allows the use of dynamic programming, which the author does throughout the chapter, with the further simplification that the discounting is omitted. The author also shows how to find the optimal value by finding the best value within a parametric class, giving in the process a more tractable problem. This approach considers a parametric class of exercise regions or stopping rules. The author's discussion is somewhat too brief, but he does quote many references that the reader can easily consult. Also discussed are random tree methods, which simulate paths of the underlying Markov chain, and which allow more control on the error as the computational effort increases. The random tree method gives two consistent estimators, one biased high and one biased low, with both converging to the true value, and attempts to find the solution to the full optimal stopping problem and estimate the true value of an American option. The author discusses briefly the numerical tests that support this method. Similar to this method are stochastic mesh methods, the difference being that stochastic mesh methods utilize information coming from all nodes in the next time step. These methods are given detailed treatment in this chapter, along with detailed discussion of their limitations and computational complexity. Regression-based methods, which estimate continuation values from simulated paths, are discussed within the framework of stochastic mesh. These methods allow the estimation of continuation values from simulated paths and consequently to price American options by Monte Carlo simulation. Still another method that is discussed in this chapter is that of state-space partitioning, which, as the name implies, involves the partitioning of the state space of the underlying Markov chain. Monte Carlo simulation then allows the calculation of the transition probabilities and the averaged payoffs, and then these calculations are used to obtain estimates of the approximating value function. The author discusses the problems with this approach, these arising mostly in high-dimensional state spaces, as expected. The last chapter will be of particular interest to risk managers, wherein the author applies Monte Carlo simulation to portfolio management. The measurement of market risk in his view boils down to finding a statistical model for describing the movements in individual sources of risk and correlations between multiple sources of risk, and in calculating the change in the value of the portfolio as the underlying sources of risk change. Most interesting in the discussion is the use of heavy-tailed probability distributions to model the changes in market prices and risks. A few methods for calculating VAR are discussed, which is then followed by how to use Monte Carlo simulation for estimating VAR. The author reminds the reader of the pitfalls in using probability distributions based on historical data for sampling price changes. A variance reduction technique based on the delta-gamma approximation is used to reduce the number of scenarios needed for portfolio revaluation. The author first treats the case where the risk factors are distributed according to multivariate normal distribution, and then latter the case where the distribution is heavy-tailed. The delta-gamma approximation captures some of the nonlinearity in a portfolio that contains options. This nonlinearity arises because of the dependence of the option on the price of the underlying asset. Keeping the quadratic terms in the Taylor expansion of the portfolio change yields the delta (first derivative) and gamma (second derivative) terms (the sensitivities). One then must find the distribution of a quadratic function of normal random variable, which the author does numerically via transform inversion. Particularly interesting in this discussion is the use of `exponential twisting' to obtain a dramatic reduction in variance. One then samples from the `twisted distribution' provided the `twisting parameter' is chosen intelligently. The author gives references, and discuses in slight detail, results that show the asymptotic optimality for this method. The case for a heavy-tailed distribution if of course much more involved, since there are no moment generating functions for the quantities of interest. The author gets around this by using an `indirect' delta-gamma approximation, which involves expressing the quantities of interest in terms of a new random variable that is more convenient to work with. The author also discusses various methods for doing variance reduction in the heavy-tailed case, one of these methods again involving exponential twisting. The chapter ends with a discussion of credit risk. The main item of interest here is the calculation of the time of default, which the author discusses in terms of the default intensity and intensity-based modeling using a stochastic intensity to model the time to default. Comment Comment | Permalink | Was this review helpful to you? Yes No (Report this)   14 of 16 people found the following review helpful: 5.0 out of 5 stars Monte Carlo applications and much more!, November 5, 2003 By  T. Kim "Who1" (Princeton, NJ United States) - See all my reviews (REAL NAME)    I just got this book and start reading a few topics of interest like Risk Management. The book covers a lot of material in various financial products (heavy on interest rate products) and disciplines and does a fairly detailed job. It would have been great to have expanded the book to cover some areas more in depth (credit and operational risk), but otherwise this book is pretty comprehensive in terms of Monte Carlo applications. The book also has a nice appendix section that covers stochastic calculus and other topics. I took a course by Professor Glasserman at Columbia University ages ago and the book as well as the course delivers. This book is an excellent reference for any practitioner or academic alike (highly recommended). If you had to choose, I also think this book is better than the Peter Jaeckel's book on Monte Carlo. Enjoy... Comment Comment | Permalink | Was this review helpful to you? Yes No (Report this) Share your thoughts with other customers: Create your own review › See all 20 customer reviews...		Ad feedback   Most Recent Customer Reviews 5.0 out of 5 stars Very well written I must admit it is magnificently written book. Not just the main thematical issues but also appendix, where, compared to other similar publications, Girsanov theorem is thoroughly... Read more Published 11 months ago by Miroslav Mlynárik 4.0 out of 5 stars Advanced analysis Let me start by saying that I'm not a "quant." I am interested in the calculations that quants do, and in Monte Carlo techniques in general. Read more Published 18 months ago by wiredweird 5.0 out of 5 stars Review for Monte Carlo Methods... by P. Glasserman The book is just right for a reader who is looking for state-of-the-art techniques in Monte-Carlo methods in general. Read more Published 24 months ago by Pameet Singh 5.0 out of 5 stars Best financial engineering book on MC This is like the bible of Monte Carlo methods in financing. Both a good read and a good reference book. Must have! for any quant on wall street. Published on June 29, 2007 by Lijun Shi 3.0 out of 5 stars good book on Monte Carlo in Finance But it seems the author is a little focused on selling his ideas, but not a very subjective overview of all topics in M-C method in finance. Published on April 2, 2007 by Lipeng Qian 5.0 out of 5 stars Excelent choice on finance Monte Carlo Clear and sound theoretical background on applied Monte Carlo for finance. Published on March 8, 2007 by Roberto Nygaard 5.0 out of 5 stars Brilliant Almost everything related to Monte Carlo in Financial Engineering is covered at just the right level of detail. Quite easy to read too. Published on December 25, 2006 by Atte Saarela 3.0 out of 5 stars Do it yourself Build a simple, non-arbitrage fixed income model yourself - you'll lean more than reading a pile of books. Published on July 16, 2006 by the Barman 4.0 out of 5 stars Excellent Book This book is exactly what I was looking for. It goes into the depth and detail of Monte-Carlo methods that other books either do not address at all, or only give a very... Read more Published on March 13, 2006 by Gary D. Peterseil 3.0 out of 5 stars Badly printed This book looks like it was printed on a laser printer that has run out of toner. The characters are very faint, gray rather than black, and a little fuzzy. Read more Published on October 30, 2005 by Mr. Hedgie Search Customer Reviews Only search this product's reviews › See all 20 customer reviews...

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