High-order approximations to call option prices in the Heston model

In the present paper, a decomposition formula for the call price due to Alòs is transformed into a Taylor-type formula containing an infinite series with stochastic terms. The new decomposition may be considered as an alternative to the decomposition of the call price found in a recent paper by Alòs...

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Bibliographic Details
Authors: Gulisashvili, Archil, Lagunas-Merino, Marc, Merino, Raúl, Vives i Santa Eulàlia, Josep, 1963-
Format: article
Status:Published version
Publication Date:2021
Country:España
Institution:Universidad de Barcelona
Repository:Dipòsit Digital de la UB
OAI Identifier:oai:diposit.ub.edu:2445/198460
Online Access:https://hdl.handle.net/2445/198460
Access Level:Open access
Keyword:Anàlisi estocàstica
Anàlisi d'error (Matemàtica)
Opcions (Finances)
Analyse stochastique
Error analysis (Mathematics)
Options (Finance)
Description
Summary:In the present paper, a decomposition formula for the call price due to Alòs is transformed into a Taylor-type formula containing an infinite series with stochastic terms. The new decomposition may be considered as an alternative to the decomposition of the call price found in a recent paper by Alòs, Gatheral and Rodoičić. We use the new decomposition to obtain various approximations to the call price in the Heston model with sharper estimates of the error term than in previously known approximations. One of the formulas obtained in the present paper has five significant terms and an error estimate of the form $O\left(\nu^3(|\rho|+\nu)\right)$, where $v$ and $\rho$ are the volatility-of-volatility and the correlation in the Heston model, respectively. Another approximation formula contains seven more terms and the error estimate is of the form $O\left(v^4(1+|\rho| v)\right)$. For the uncorrelated Heston model $(\rho=0)$, we obtain a formula with four significant terms and an error estimate $O\left(v^6\right)$. Numerical experiments show that the new approximations to the call price perform especially well in the high-volatility mode.