A multivariate stochastic unit root model with an application to derivative pricing
A multivariate stochastic unit root model with an application to derivative pricing
This paper extends recent findings of Lieberman and Phillips (2014) on stochastic unit root (STUR) models to a multivariate case including asymptotic theory for estimation of the model’s parameters. The extensions are useful for applications of STUR modeling and because they lead to a generalization of the Black–Scholes formula for derivative pricing. In place of the standard assumption that the price process follows a geometric Brownian motion, we derive a new form of the Black–Scholes equation that allows for a multivariate time varying coefficient element in the price equation. The corresponding formula for the value of a European-type call option is obtained and shown to extend the existing option price formula in a manner that embodies the effect of a stochastic departure from a unit root. An empirical application reveals that the new model substantially reduces the average percentage pricing error of the Black–Scholes and Heston’s (1993) stochastic volatility (with zero volatility risk premium) pricing schemes in most moneyness-maturity categories considered.
99-110
Lieberman, Offer
dc3ceb23-c100-41be-8d88-7c80625fd3fb
Phillips, Peter
f67573a4-fc30-484c-ad74-4bbc797d7243
January 2017
Lieberman, Offer
dc3ceb23-c100-41be-8d88-7c80625fd3fb
Phillips, Peter
f67573a4-fc30-484c-ad74-4bbc797d7243
Lieberman, Offer and Phillips, Peter
(2017)
A multivariate stochastic unit root model with an application to derivative pricing.
Journal of Econometrics, 196 (1), .
(doi:10.1016/j.jeconom.2016.05.019).
Abstract
This paper extends recent findings of Lieberman and Phillips (2014) on stochastic unit root (STUR) models to a multivariate case including asymptotic theory for estimation of the model’s parameters. The extensions are useful for applications of STUR modeling and because they lead to a generalization of the Black–Scholes formula for derivative pricing. In place of the standard assumption that the price process follows a geometric Brownian motion, we derive a new form of the Black–Scholes equation that allows for a multivariate time varying coefficient element in the price equation. The corresponding formula for the value of a European-type call option is obtained and shown to extend the existing option price formula in a manner that embodies the effect of a stochastic departure from a unit root. An empirical application reveals that the new model substantially reduces the average percentage pricing error of the Black–Scholes and Heston’s (1993) stochastic volatility (with zero volatility risk premium) pricing schemes in most moneyness-maturity categories considered.
Text
OLPCB7-rev4-1
- Accepted Manuscript
More information
Accepted/In Press date: 18 May 2016
e-pub ahead of print date: 6 October 2016
Published date: January 2017
Organisations:
Economics
Identifiers
Local EPrints ID: 406721
URI: http://eprints.soton.ac.uk/id/eprint/406721
ISSN: 0304-4076
PURE UUID: 45af28bd-c969-4321-a713-984448ef3bf2
Catalogue record
Date deposited: 21 Mar 2017 02:02
Last modified: 16 Mar 2024 05:08
Export record
Altmetrics
Contributors
Author:
Offer Lieberman
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
