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- 2012002416 contributor B12429615.
- 2012002416 created "2012.".
- 2012002416 date "2012".
- 2012002416 date "2012.".
- 2012002416 dateCopyrighted "2012.".
- 2012002416 description "Description based on print version record and CIP data provided by publisher; resource not viewed.".
- 2012002416 description "Includes bibliographical references and index.".
- 2012002416 description "Machine generated contents note: Chapter 1 Introduction. Overview of MatLab. Using various MatLab's toolboxes. Mathematics with MatLab. Statistics with MatLab. Programming in MatLab. Part 1. Chapter 2 Probability Theory. Set and sample space. Sigma algebra, probability measure and probability space. Discrete and continuous random variables. Measurable mapping. Joint, conditional and marginal distributions. Expected values and moment of a distribution. Appendix 1: Bernoulli law of large numbers. Appendix 2: Conditional expectations. Appendix 3: Hilbert spaces. Chapter 3 Stochastic Processes. Martingales processes. Stopping times. The optional stopping theorem. Local martingales and semi-martingales. Brownian motions. Brownian motions and reflection principle. Martingales separation theorem of Brownian motions. Appendix 1: Working with Brownian motions. Chapter 4 Ito Calculus and Ito Integral. Quadratic variation of Brownian motions. The construction of Ito integral with elementary process. The general Ito integral. Construction of the Ito integral with respect to semi-martingales integrators. Quadratic variation and general bounded martingales. Ito lemma and Ito formula. Appendix 1: Ito Integral and Riemann-Stieljes integral. Part 2. Chapter 5 The Black and Scholes Economy and Black and Scholes Formula. The fundamental theorem of asset pricing. Martingales measures. The Girsanov Theorem. The Randon-Nikodym. The Black and Scholes Model. The Black and Scholes formula. The Black and Scholes in practice. The Feyman-Kac formula. Appendix 1: The Kolmogorov Backword equation. Appendix 2: Change of numeraire. Chapter 6 Monte Carlo Methods for Options Pricing. Basic concepts and pricing European style options. Variance reduction techniques. Pricing path dependent options. Projections methods in finance. Estimations of Greeks by Monte Carlo methods. Chapter 7 American Option Pricing. A review of the literature on pricing American put options. Optimal stopping times and American put options. A dynamic programming approach to price American options. The Losgstaff and Schwartz (2001) approach. The Glasserman and Yu (2004) approach. Estimation of the upper bound. Cerrato (2008) approach to compute upper bounds. Chapter 8 Exotic Options. Digital and binary. Asian options. Forward start options. Barrier options. Hedging barrier options. Chapter 9 Stochastic Volatility Models. Square root diffusion models. The Heston Model. Processes with jumps. Monte Carlo methods to price derivatives under stochastic volatility. Euler methods and stochastic differential equations. Exact simulation of Greeks under stochastic volatility. Computing Greeks for exotics using simulations. Chapter 10 Interest Rate Modeling. A general framework. Affine models. The Vasicek model. The Cox, Ingersoll & Ross Model. The Hull and White (HW) Model. Bond options.".
- 2012002416 extent "1 online resource.".
- 2012002416 hasFormat "Mathematics of derivatives securities with applications in MATLAB".
- 2012002416 identifier "9781119973409 (Adobe PDF)".
- 2012002416 identifier "9781119973416 (ePub)".
- 2012002416 identifier "9781119973423 ( MobiPocket)".
- 2012002416 identifier 9780470683699.jpg.
- 2012002416 isFormatOf "Mathematics of derivatives securities with applications in MATLAB".
- 2012002416 isPartOf "The Wiley finance series ; 585".
- 2012002416 issued "2012".
- 2012002416 issued "2012.".
- 2012002416 language "eng".
- 2012002416 publisher "Hoboken : John Wiley & Sons Inc.,".
- 2012002416 relation "Mathematics of derivatives securities with applications in MATLAB".
- 2012002416 subject "332.64/57015195 23".
- 2012002416 subject "BUSINESS & ECONOMICS / Finance. bisacsh".
- 2012002416 subject "Derivative securities Statistical methods.".
- 2012002416 subject "Finance Statistical methods.".
- 2012002416 subject "HG6024.A3".
- 2012002416 subject "MATLAB.".
- 2012002416 subject "Probabilities.".
- 2012002416 tableOfContents "Machine generated contents note: Chapter 1 Introduction. Overview of MatLab. Using various MatLab's toolboxes. Mathematics with MatLab. Statistics with MatLab. Programming in MatLab. Part 1. Chapter 2 Probability Theory. Set and sample space. Sigma algebra, probability measure and probability space. Discrete and continuous random variables. Measurable mapping. Joint, conditional and marginal distributions. Expected values and moment of a distribution. Appendix 1: Bernoulli law of large numbers. Appendix 2: Conditional expectations. Appendix 3: Hilbert spaces. Chapter 3 Stochastic Processes. Martingales processes. Stopping times. The optional stopping theorem. Local martingales and semi-martingales. Brownian motions. Brownian motions and reflection principle. Martingales separation theorem of Brownian motions. Appendix 1: Working with Brownian motions. Chapter 4 Ito Calculus and Ito Integral. Quadratic variation of Brownian motions. The construction of Ito integral with elementary process. The general Ito integral. Construction of the Ito integral with respect to semi-martingales integrators. Quadratic variation and general bounded martingales. Ito lemma and Ito formula. Appendix 1: Ito Integral and Riemann-Stieljes integral. Part 2. Chapter 5 The Black and Scholes Economy and Black and Scholes Formula. The fundamental theorem of asset pricing. Martingales measures. The Girsanov Theorem. The Randon-Nikodym. The Black and Scholes Model. The Black and Scholes formula. The Black and Scholes in practice. The Feyman-Kac formula. Appendix 1: The Kolmogorov Backword equation. Appendix 2: Change of numeraire. Chapter 6 Monte Carlo Methods for Options Pricing. Basic concepts and pricing European style options. Variance reduction techniques. Pricing path dependent options. Projections methods in finance. Estimations of Greeks by Monte Carlo methods. Chapter 7 American Option Pricing. A review of the literature on pricing American put options. Optimal stopping times and American put options. A dynamic programming approach to price American options. The Losgstaff and Schwartz (2001) approach. The Glasserman and Yu (2004) approach. Estimation of the upper bound. Cerrato (2008) approach to compute upper bounds. Chapter 8 Exotic Options. Digital and binary. Asian options. Forward start options. Barrier options. Hedging barrier options. Chapter 9 Stochastic Volatility Models. Square root diffusion models. The Heston Model. Processes with jumps. Monte Carlo methods to price derivatives under stochastic volatility. Euler methods and stochastic differential equations. Exact simulation of Greeks under stochastic volatility. Computing Greeks for exotics using simulations. Chapter 10 Interest Rate Modeling. A general framework. Affine models. The Vasicek model. The Cox, Ingersoll & Ross Model. The Hull and White (HW) Model. Bond options.".
- 2012002416 title "The mathematics of derivatives securities with applications in MATLAB / Mario Cerrato.".
- 2012002416 type "text".