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A subdiffusive stochastic volatility jump model

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  • Jean-Loup Dupret
  • Donatien Hainaut

Abstract

Subdiffusions appear as good candidates for modeling illiquidity in financial markets. Existing subdiffusive models of asset prices are indeed able to capture the motionless periods in the quotes of thinly-traded assets. However, they fail at reproducing simultaneously the jumps and the time-varying random volatility observed in the price of these assets. The aim of this work is hence to propose a new model of subdiffusive asset prices reproducing the main characteristics exhibited in illiquid markets. This is done by considering a stochastic volatility jump model, time changed by an inverse subordinator. We derive the forward fractional partial differential equations (PDE) governing the probability density function of the introduced model and we prove that it leads to an arbitrage-free and incomplete market. By proposing a new procedure for estimating the model parameters and using a series expansion for solving numerically the obtained fractional PDE, we are able to price various European-type derivatives on illiquid assets and to depart from the common Markovian valuation setup. This way, we show that the introduced subdiffusive stochastic volatility jump model yields consistent and reliable results in illiquid markets.

Suggested Citation

  • Jean-Loup Dupret & Donatien Hainaut, 2023. "A subdiffusive stochastic volatility jump model," Quantitative Finance, Taylor & Francis Journals, vol. 23(6), pages 979-1002, June.
    • Handle: RePEc:taf:quantf:v:23:y:2023:i:6:p:979-1002
    DOI: 10.1080/14697688.2023.2199959
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