Option Pricing with Discrete Rebalancing

We consider option pricing when dynamic portfolios are discretely rebalanced. The portfolio adjustments only occur after fixed relative variation of the stock price. The stock price follows a marked point process and the market is incomplete. We first characterize the equivalent martingale measures. An explicit formula based on the minimal martingale measure is then provided together with the hedging strategy underlying portfolio adjustments. Under adequate conditions on the stock price dynamics, the minimal pricing formula converges to the Black-Scholes formula when the triggering price increment shrinks to zero. This is shown theoretically and numerically on two examples : a marked Poisson process and a jump process driven by a latent geometric Brownian motion. For the empirical application we use IBM intraday transaction data and compare option prices given by the marked Poisson model and the Black-Scholes model.

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Year of publication:	1999-02-01
Authors:	Prigent, J.-L. ; Renault, O. ; Scaillet, O.
Institutions:	Institut de Recherche Économique et Sociale (IRES), École des Sciences Économiques de Louvain
Subject:	Weak convergence \| incomplete markets \| option pricing \| minimal martingale measure \| discrete rebalancing \| marked point process

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Extent:	application/pdf
Series:	Discussion Papers (IRES - Institut de Recherches Economiques et Sociales).
Type of publication:	Book / Working Paper
Language:	Hungarian
Notes:	The text is part of a series UNIVERSITE CATHOLIQUE DE LOUVAIN, Institut de Recherches Economiques et Sociales (IRES) Number 1999029 1 pages long
Classification:	D52 - Incomplete Markets ; G13 - Contingent Pricing; Futures Pricing
Source:	RePEc - Research Papers in Economics

Persistent link: https://www.econbiz.de/10004985285