Instantaneous Mean-Variance Hedging and Sharpe Ratio Pricing in a Regime-Switching Financial Model

Lukasz Delong; Antoon Pelsser

doi:10.1080/15326349.2014.967531

Instantaneous Mean-Variance Hedging and Sharpe Ratio Pricing in a Regime-Switching Financial Model

Lukasz Delong^*, Antoon Pelsser

^*Corresponding author for this work

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Abstract

We study hedging and pricing of claims in a non-markovian regime-switching financial model. Our financial market consists of a bank account and a risky asset whose dynamics are driven by a brownian motion and a multivariate counting process with stochastic intensities. The counting process is used to model the switching behavior for the states of the economy. We assume that the trajectory of the risky asset is continuous between the transition times for the states of the economy and that the value of the risky asset jumps at the time of the transition. We find the hedging strategy that minimizes the instantaneous mean-variance risk of the hedger’s surplus, and we set the price so that the instantaneous sharpe ratio of the hedger’s surplus equals a predefined target. We discuss key properties of our optimal price and optimal hedging strategy.

Original language	English
Pages (from-to)	67-97
Journal	Stochastic Models
Volume	31
Issue number	1
DOIs	https://doi.org/10.1080/15326349.2014.967531
Publication status	Published - 2 Jan 2015

Keywords

No-good-deal pricing
Counting process
Backward stochastic differential equations
Model ambiguity
Instantaneous Sharpe ratio
Instantaneous mean-variance risk

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10.1080/15326349.2014.967531

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Cite this

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title = "Instantaneous Mean-Variance Hedging and Sharpe Ratio Pricing in a Regime-Switching Financial Model",

abstract = "We study hedging and pricing of claims in a non-markovian regime-switching financial model. Our financial market consists of a bank account and a risky asset whose dynamics are driven by a brownian motion and a multivariate counting process with stochastic intensities. The counting process is used to model the switching behavior for the states of the economy. We assume that the trajectory of the risky asset is continuous between the transition times for the states of the economy and that the value of the risky asset jumps at the time of the transition. We find the hedging strategy that minimizes the instantaneous mean-variance risk of the hedger{\textquoteright}s surplus, and we set the price so that the instantaneous sharpe ratio of the hedger{\textquoteright}s surplus equals a predefined target. We discuss key properties of our optimal price and optimal hedging strategy.",

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AB - We study hedging and pricing of claims in a non-markovian regime-switching financial model. Our financial market consists of a bank account and a risky asset whose dynamics are driven by a brownian motion and a multivariate counting process with stochastic intensities. The counting process is used to model the switching behavior for the states of the economy. We assume that the trajectory of the risky asset is continuous between the transition times for the states of the economy and that the value of the risky asset jumps at the time of the transition. We find the hedging strategy that minimizes the instantaneous mean-variance risk of the hedger’s surplus, and we set the price so that the instantaneous sharpe ratio of the hedger’s surplus equals a predefined target. We discuss key properties of our optimal price and optimal hedging strategy.

KW - No-good-deal pricing

KW - Counting process

KW - Backward stochastic differential equations

KW - Model ambiguity

KW - Instantaneous Sharpe ratio

KW - Instantaneous mean-variance risk

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DO - 10.1080/15326349.2014.967531

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