|
BOOKSHOP
|
Weak Convergence of Financial Markets
|
| by Jean-Luc Prigent
|
Our price: £111.15 (Convert currency)
Normal price:£117.00, you save: £5.85 (5%)
£4.50 UK postage (for single orders)
|
Special order title, usually ships within 8 working days |
|
Or phone us on +44 (0)1730 233 870
|
Product code: 15275 ISBN: 3540423338,
ISBN13: 9783540423331,
444 pages, hardback, published by Springer-Verlag Berlin and Heidelberg GmbH & Co. KG, illustrated edition edition, 2003
|
|
|
|
|
|
| Description of Weak Convergence of Financial Markets |
| A comprehensive overview of weak convergence of stochastic processes and its application to the study of financial markets. Split into three parts, the first recalls the mathematics of stochastic processes and stochastic calculus with special emphasis on contiguity properties and weak convergence of stochastic integrals. The second part is devoted to the analysis of financial theory from the convergence point of view. The main problems such as portfolio optimization, option pricing and hedging are examined, especially when considering discrete-time approximations of continuous-time dynamics. The third part deals with lattice- and tree-based computational procedures for option pricing both on stocks and stochastic bonds. More general discrete approximations are also introduced and detailed. |
| Contents of Weak Convergence of Financial Markets |
1. Weak Convergence of Stochastic Processes
1.1 Basic Properties of Stochastic Processes
1.1.1 Stochastic Basis, Filtration, Stopping Times
1.1.2 Stochastic Processes
1.1.3 Martingales
1.1.4 Semimartingales and Stochastic Integrals
1.1.5 Markov Processes and Stochastic Differential Equations
1.1.6 The Discrete Time Case
1.2 Weak Convergence
1.2.1 The Skorokhod Topology
1.2.2 Continuity for the Skorokhod Topology
1.2.3 Definition of Weak Convergence
1.2.4 Criteria for Tightness in D^k
1.2.5 The Meyer-Zheng Topology
1.3 Weak Convergence to a Semimartingale
1.3.1 Functional Convergence and Characteristics
1.3.2 Limits of Martingales
1.3.3 Limit Theorems for Markov Processes
1.3.4 Convergence of Triangular Arrays
1.4 Weak Convergence of Stochastic Integrals
1.4.1 Introduction
1.4.2 The Uniform Tightness Condition U.T
1.4.3 Functional Limit Theorems for Sequences of Stochastic Integrals and Stochastic Differential Equations
1.5 Limit Theorems, Density Processes and Contiguity
1.5.1 Hellinger Integral and Hellinger Process
1.5.2 Contiguity and Entire Separation
1.5.3 Convergence of the Density Processes
1.5.4 The Statistical Invariance Principle
2. Weak Convergence of Financial Markets
2.1 Convergence of Optimal Consumption-Portfolio Strategies
2.1.1 Weak Convergence of Controlled Processes
2.1.2 The Martingale Approach
2.2 Convergence of Options Prices
2.2.1 Problems and Examples
2.2.2 Contiguity Properties
2.2.3 The Case of Incomplete Markets
2.2.4 Transaction Costs
2.2.5 American Options
2.3 Convergence of Hedging Strategies
2.3.1 Binomial Case and Clark-Haussman Formula
2.3.2 Weak Convergence of Integrands
2.3.3 The Local Risk-Minimizing Strategy
3. The Basic Models of Approximations
3.1 General Remarks
3.1.1 Some numerical methods for forward and backward stochastic differential equations
3.1.2 Some numerical methods for computations of Greeks
3.2 Lattice
3.2.1 Simple Binomial Processes as Diffusion Approximations
3.2.2 Correction Terms for Path-Dependent Options
3.2.3 Adjustment Prior to Maturity and Smoothing of the Payoff Functions
3.2.4 Fast Accurate Binomial Pricing
3.2.5 Approximating a Diffusion by a Trinomial Tree
3.3 Alternative Approximations
3.3.1 ARCH Approximations
3.3.2 Lévy Processes
3.3.3 Convergence for Random Time Intervals
3.3.4 Deterministic or Random Discretizations of Continuous-Time Processes
3.4 Approximations of Term Structure Models
3.4.1 Bonds and Interest Rate Derivatives
3.4.2 Basic Interest Models and their Approximations
3.4.3 Two-factors Model
3.4.4 Market Models : Discretization of Lognormal Forward Libor and Swap Rate Models
3.4.5 Discretization of Deflated Bond Prices
3.4.6 Pricing Interest Rate or Equity Derivatives and Discretization
Index |
|