ISBN-10:
1848212496
ISBN-13:
9781848212497
Pub. Date:
04/08/2013
Publisher:
Wiley
Applied Diffusion Processes from Engineering to Finance / Edition 1

Applied Diffusion Processes from Engineering to Finance / Edition 1

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Product Details

ISBN-13: 9781848212497
Publisher: Wiley
Publication date: 04/08/2013
Series: ISTE Series , #717
Pages: 416
Product dimensions: 6.00(w) x 9.30(h) x 1.10(d)

About the Author

Jacques Janssen is now Honorary Professor at the Solvay Business School (ULB) in Brussels, Belgium, having previously taught at EURIA (Euro-Institut d’Actuariat, University of West Brittany, Brest, France) and Télécom-Bretagne (Brest, France) as well as being a director of Jacan Insurance and Finance Services, a consultancy and training company.

Oronzio Manca is Professor of thermal sciences at Seconda Università degli Studi di Napoli in Italy. He is currently Associate Editor of ASME Journal of Heat Transfer and Journal of Porous Media and a member of the editorial advisory boards for The Open Thermodynamics Journal, Advances in Mechanical Engineering, The Open Fuels & Energy Science Journal.

Raimondo Manca is Professor of mathematical methods applied to economics, finance and actuarial science at University of Rome "La Sapienza" in Italy. He is associate editor for the journal Methodology and Computing in Applied Probability. His main research interests are multidimensional linear algebra, computational probability, application of stochastic processes to economics, finance and insurance and simulation models.

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Table of Contents

Introduction xiii

Chapter 1 Diffusion Phenomena and Models 1

1.1 General presentation of diffusion process 1

1.2 General balance equations 6

1.3 Heat conduction equation 10

1.4 Initial and boundary conditions 12

Chapter 2 Probabilistic Models of Diffusion Processes17

2.1 Stochastic differentiation 17

2.2 Itô’s formula 19

2.3 Stochastic differential equations (SDE) 24

2.4 Itô and diffusion processes 28

2.5 Some particular cases of diffusion processes 32

2.6 Multidimensional diffusion processes 36

2.7 The Stroock–Varadhan martingale characterization ofdiffusions (Karlin and Taylor) 41

2.8 The Feynman–Kac formula (Platen and Heath) 42

Chapter 3 Solving Partial Differential Equations of SecondOrder 47

3.1 Basic definitions on PDE of second order 47

3.2 Solving the heat equation 51

3.3 Solution by the method of Laplace transform 65

3.4 Green’s functions 75

Chapter 4 Problems in Finance 85

4.1 Basic stochastic models for stock prices 85

4.2 The bond investments 90

4.3 Dynamic deterministic continuous time model forinstantaneous interest rate 93

4.4 Stochastic continuous time dynamic model for instantaneousinterest rate 98

4.5 Multidimensional Black and Scholes model 110

Chapter 5 Basic PDE in Finance 111

5.1 Introduction to option theory 111

5.2 Pricing the plain vanilla call with theBlack–Scholes–Samuelson model 115

5.3 Pricing no plain vanilla calls with theBlack-Scholes-Samuelson model 120

5.4 Zero-coupon pricing under the assumption of no arbitrage127

Chapter 6 Exotic and American Options Pricing Theory145

6.1 Introduction 145

6.2 The Garman–Kohlhagen formula 146

6.3 Binary or digital options 149

6.4 “Asset or nothing” options 150

6.5 Numerical examples 152

6.6 Path-dependent options 153

6.7 Multi-asset options 157

6.8 American options 165

Chapter 7 Hitting Times for Diffusion Processes andStochastic Models in Insurance 177

7.1 Hitting or first passage times for some diffusion processes177

7.2 Merton’s model for default risk 193

7.3 Risk diffusion models for insurance 201

Chapter 8 Numerical Methods 219

8.1 Introduction 219

8.2 Discretization and numerical differentiation 220

8.3 Finite difference methods 222

9.1 Nonlinear model in heat conduction 232

Chapter 9 Advanced Topics in Engineering: Nonlinear Models231

9.2 Integral method applied to diffusive problems 233

9.3 Integral method applied to nonlinear problems 239

9.4 Use of transformations in nonlinear problems 243

Chapter 10 Lévy Processes 255

10.1 Motivation 255

10.2 Notion of characteristic functions 257

10.3 Lévy processes 257

10.4 Lévy–Khintchine formula 259

10.5 Examples of Lévy processes 261

10.6 Variance gamma (VG) process 264

10.7 The Brownian–Poisson model with jumps 266

10.8 Risk neutral measures for Lévy models in finance275

10.9 Conclusion 276

Chapter 11 Advanced Topics in Insurance: Copula Models andVaR Techniques277              

11.1 Introduction 277

11.2 Sklar theorem (1959) 279

11.3 Particular cases and Fréchet bounds 280

11.4 Dependence 288

11.5 Applications in finance: pricing of the bivariate digitalput option 293

11.6 VaR application in insurance 296

Chapter 12 Advanced Topics in Finance: Semi-Markov Models307

12.1 Introduction 307

12.2 Homogeneous semi-Markov process 308

12.3 Semi-Markov option model 328

12.4 Semi-Markov VaR models 332

12.5 Conclusion 339

Chapter 13 Monte Carlo Semi-Markov Simulation Methods341

13.1 Presentation of our simulation model 341

13.2 The semi-Markov Monte Carlo model in a homogeneousenvironment 345

13.3 A credit risk example 350

13.4 Semi-Markov Monte Carlo with initial recurrence backwardtime in homogeneous case 362

13.5 The SMMC applied to claim reserving problem 363

13.6 An example of claim reserving calculation 366

Conclusion 379

Bibliography 381

Index 393

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