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PRICING AND HEDGING OF VIX DERIVATIVES IN MODIFIED STOCHASTIC MODELS

Published online by Cambridge University Press:  23 June 2023

JIEFEI YU*
Affiliation:
School of Mathematics and Statistics, University of New South Wales, Sydney, New South Wales 2052, Australia
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Abstract

Type
PhD Abstract
Copyright
© The Author(s), 2023. Published by Cambridge University Press on behalf of Australian Mathematical Publishing Association Inc.

After CBOE launched the VIX and its corresponding derivatives, investors have maintained a high level of interest in this unique index. Unlike indices that focus on asset prices, the VIX can reflect investors’ subjective expectations of the market by incorporating varying volatility into the calculation. However, in the past literature, the prices of the VIX derivatives have often just been obtained from models with fixed parameters [Reference Wang, Shen, Jiang and Huang1] or considered only the long-term volatility of the asset price [Reference Zheng and Kwok2]. Also, we find sparse discussions on the compatibility of the VIX valuation process with modifications of time series stochastic models, such as the regime switching and the subordinator method. Lastly, we note little literature specifically mentions hedging VIX derivatives and the relevant strategy-obtaining process. To address these issues, we explore the pricing and hedging of VIX derivatives in this thesis, using the VIX European call option as an example. In the pricing process covered in Chapters 3 and 4, we incorporate the regime switching factor into the continuous 4/2 model and discretise the model, based on Heston–Nandi’s idea in combination with various modifications, to improve the model’s capture of various volatility and changes in the market environment. After comparing the results obtained by the saddlepoint method, we find that those modifications significantly improved the quality of the model, increasing the accuracy of the pricing results and allowing the model to adapt to a more general market environment. In Chapter 5, we hedge the VIX options based on the GARCH framework using a local quadratic hedging approach. After taking advantage of the GARCH model, we optimise the method of obtaining option hedging strategies by reducing the weights of stochastic simulations and reducing the number of simulations required while enhancing the model accuracy.

Footnotes

Thesis submitted to the University of New South Wales in August 2022; degree approved on 23 January 2023; supervisors Leung Chan and Feng Chen.

References

Wang, T., Shen, Y., Jiang, Y. and Huang, Z., ‘Pricing the CBOE VIX futures with the Heston–Nandi GARCH model’, J. Futures Markets 37(7) (2017), 641659.10.1002/fut.21820CrossRefGoogle Scholar
Zheng, W. and Kwok, Y. K., ‘Saddlepoint approximation methods for pricing derivatives on discrete realized variance’, Appl. Math. Finance 21(1) (2014), 131.10.1080/1350486X.2013.780770CrossRefGoogle Scholar