Exact simulation of option Greeks under stochastic volatility and jump diffusion models

Author

Broadie, Mark ; Kaya, Özgür

Author_Institution

Graduate Sch. of Bus., Columbia Univ., New York, NY, USA

Volume

2

fYear

2004

fDate

5-8 Dec. 2004

Firstpage

1607

Abstract

This paper derives Monte Carlo simulation estimators to compute option price derivatives, i.e., the ´Greeks,´ under Heston´s stochastic volatility model and some variants of it which include jumps in the price and variance processes. We use pathwise and likelihood ratio approaches together with the exact simulation method of Broadie and Kaya (2004) to generate unbiased estimates of option price derivatives in these models. By appropriately conditioning on the path generated by the variance and jump processes, the evolution of the stock price can be represented as a series of lognormal random variables. This makes it possible to extend previously known results from the Black-Scholes setting to the computation of Greeks for more complex models. We give simulation estimators and numerical results for some path-dependent and path-independent options.

Keywords

Monte Carlo methods; maximum likelihood estimation; simulation; stochastic processes; stock markets; Black-Scholes setting; Monte Carlo simulation estimators; exact simulation method; jump diffusion models; likelihood ratio approach; lognormal random variables; option Greeks simulation; option price derivatives; path-dependent option; path-independent option; pathwise ratio approach; stochastic volatility; stock price evolution; unbiased estimation; Computational modeling; Density functional theory; Finance; Finite difference methods; Numerical simulation; Random variables; Sampling methods; Stochastic processes;

fLanguage

English

Publisher

ieee

Conference_Titel

Simulation Conference, 2004. Proceedings of the 2004 Winter

Print_ISBN

0-7803-8786-4

Type

conf

DOI

10.1109/WSC.2004.1371506

Filename

1371506