Basket options with volatility skew: Calibrating a local volatility model by sample rearrangement

Publication date

2026-02-01

Authors

Zaugg, Nicola F.
Grzelak, Lech A.ISNI 0000000396934707

Editors

Advisors

Supervisors

Document Type

Article
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License

cc_by

Abstract

The pricing of derivatives tied to baskets of assets demands a sophisticated framework that aligns with the available market information to capture the intricate non-linear dependency structure among the assets. We describe the dynamics of the multivariate process of constituents with a copula model and propose an efficient method to extract the dependency structure from the market. The proposed method generates coherent sets of samples of the constituents process through systematic sampling rearrangement. These samples are then utilized to calibrate a local volatility model (LVM) of the basket process, which is used to price basket derivatives. We show that the method is capable of efficiently pricing basket options based on a large number of basket constituents, accomplishing the calibration process within a matter of seconds, and achieving near-perfect calibration to the index options of the market.

Keywords

Basket options, Copula, Correlation structure, Local volatility, Rearrangement algorithms, General Computer Science, Computational Mathematics, Applied Mathematics

Citation

Zaugg, N F & Grzelak, L A 2026, 'Basket options with volatility skew : Calibrating a local volatility model by sample rearrangement', Applied Mathematics and Computation, vol. 510, 129669. https://doi.org/10.1016/j.amc.2025.129669