Computational Methods for Quantitative Finance: Finite Element Methods for Derivative Pricing - Softcover
Book 42 of 53: Springer Finance
Synopsis
1.Introduction.- Part I.Basic techniques and models: 2.Notions of mathematical finance.- 3.Elements of numerical methods for PDEs.- 4.Finite element methods for parabolic problems.- 5.European options in BS markets.- 6.American options.- 7.Exotic options.- 8.Interest rate models.- 9.Multi-asset options.- 10.Stochastic volatility models-. 11.Lévy models.- 12.Sensitivities and Greeks.- Part II.Advanced techniques and models: 13.Wavelet methods.- 14.Multidimensional diffusion models.- 15.Multidimensional Lévy models.- 16.Stochastic volatility models with jumps.- 17.Multidimensional Feller processes.- Apendices: A.Elliptic variational inequalities.- B.Parabolic variational inequalities.- References.- Index.
"synopsis" may belong to another edition of this title.
Review
From the book reviews:
“This book ... covers mainly finite element methods for derivative pricing. The book is divided into two parts: ‘Basic Techniques and Models’ and ‘Advanced Techniques and Models’. This partition makes the book useful to a large number of readers, from beginners in the subject to more advanced students and researchers, specializing not only in applied mathematics but also in mathematical finance.” (Javier de Frutos, Mathematical Reviews, July, 2014)"About this title" may belong to another edition of this title.
