The stochastic collocation Monte Carlo sampler: highly efficient sampling from ‘expensive’ distributions

Grzelak, Lech; Witteveen, Jeroen A. S.; Suárez-Taboada, M.; Oosterlee, Cornelis

Use this link to cite:

http://hdl.handle.net/2183/38158

The stochastic collocation Monte Carlo sampler: highly efficient sampling from ‘expensive’ distributions

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Suarez_Taboada_Maria_2019_The_stochastic_collocation_Monte_Carlo_sampler.pdf (786.27 KB)

Identifiers

URI: http://hdl.handle.net/2183/38158

DOI: 10.1080/14697688.2018.1459807

Publication date

2019

Authors

Grzelak, Lech

Witteveen, Jeroen A. S.

Suárez-Taboada, M.

Oosterlee, Cornelis

Bibliographic citation

Grzelak, L. A., Witteveen, J. A. S., Suárez-Taboada, M., & Oosterlee, C. W. (2018). The stochastic collocation Monte Carlo sampler: highly efficient sampling from ‘expensive’ distributions. Quantitative Finance, 19(2), 339–356. https://doi.org/10.1080/14697688.2018.1459807

Abstract

[Abstract]: In this article, we propose an efficient approach for inverting computationally expensive cumulative distribution functions. A collocation method, called the Stochastic Collocation Monte Carlo sampler (SCMC sampler), within a polynomial chaos expansion framework, allows us the generation of any number of Monte Carlo samples based on only a few inversions of the original distribution plus independent samples from a standard normal variable. We will show that with this path-independent collocation approach the exact simulation of the Heston stochastic volatility model, as proposed in Broadie and Kaya [Oper. Res., 2006, 54, 217–231], can be performed efficiently and accurately. We also show how to efficiently generate samples from the squared Bessel process and perform the exact simulation of the SABR model.