Financial Modeling and Option Theory with the Truncated Levy Process
Author
Andrew Matacz
Status
Research Report 97-28
Date: 16 October 1997
Abstract
In recent studies the truncated Levy process (TLP) has been shown to be very
promising for the modeling of financial dynamics. In contrast to the Levy
process, the TLP has finite moments and can account for both the previously
observed excess kurtosis at short timescales, along with the slow convergence
to Gaussian at longer timescales. I further test the truncated Levy paradigm
using high frequency data from the Australian All Ordinaries share market
index. I then consider, for the early Levy dominated regime, the issue of
option hedging for two different hedging strategies that are in some sense
optimal. These are compared with the usual delta hedging approach and found
to differ significantly. I also derive the natural generalization of the
Black-Scholes option pricing formula when the underlying security is modeled
by a geometric TLP. This generalization would not be possible without the
truncation.
Key phrases
Option Pricing. Derivative Securities. Levy Process.
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Sydney Mathematics and Statistics