Advanced search
Publication Cover
International Journal of Computer Mathematics Latest Articles
Submit an article Journal homepage
583
Views
0
CrossRef citations to date
0
Altmetric
Research Article

Efficient pricing and calibration of high-dimensional basket options

Lech A. Grzelaka Financial Engineering, Rabobank, Utrecht, the Netherlands;b Mathematical Institute, Utrecht University, Utrecht, the NetherlandsCorrespondence[email protected]
,
Juliusz Jableckic Financial Risk Management Department, National Bank of Poland, Warsaw, Poland;d Faculty of Economic Sciences, University of Warsaw, Warsaw, Poland
&
Dariusz Gatareke Systems Research Institute, Polish Academy of Sciences, Warsaw, Poland
Received 01 Dec 2022, Accepted 18 Sep 2023, Published online: 05 Oct 2023

References

  • A. Ahdida and A. Alfonsi, A mean-reverting SDE on correlation matrices, Stoch. Process. Their. Appl.123(4) (2013), pp. 1472–2630.
  • L.B.G. Andersen, Simple and efficient simulation of the Heston stochastic volatility model, J. Comput. Financ. 11(3) (2008), pp. 1–22.
  • G. Bakshi, N. Kapadia, and D. Madan, Stock return characteristics, skew laws, and the differential pricing of individual equity options, Rev. Financ. Stud. 16(1) (2003), pp. 101–143.
  • N.P. Bollen and R.E. Whaley, Does net buying pressure affect the shape of implied volatility functions?J. Financ. 59(2) (2004), pp. 711–753.
  • N. Branger and C. Schlag, Why is the index smile so steep? Rev. Financ. 8(1) (2004), pp. 109–127.
  • X. Chen, G. Deelstra, J. Dhaene, and M. Vanmaele, Static super-replicating strategies for a class of exotic options, Insur. Math. Econ. 42(3) (2008), pp. 1067–1085.
  • J. De Fonseca and G.M.C. Tebaldi, Option pricing when correlations are stochastic: An analytical framework, Rev. Deriv. Res. 10 (2007), pp. 151–180.
  • B. Dupire, Pricing with a smile, Risk Magazine 7(1) (1994a), pp. 18–20.
  • B. Dupire, Pricing with a smile, Risk 7 (1994b), pp. 18–20.
  • B. Dupire, A unified theory of volatility. Paribas Working Paper, 1996.
  • G. Fichera, Sulle equazioni differenziali lineari ellittico-paraboliche del secondo ordine. Consiglio Nazionale delle Ricerche, Rome, 1956.
  • L.A. Grzelak, The collocating local volatility framework – a fresh look at efficient pricing with smile, Int. J. Comput. Math. 96(11) (2019), pp. 2209–2228.
  • L.A. Grzelak and C.W. Oosterlee, From arbitrage to arbitrage-free implied volatilities, J. Comput. Financ. 20(3) (2016), pp. 31–49.
  • L.A. Grzelak, J. Witteveen, M. Suarez-Taboada, and C.W. Oosterlee, The stochastic collocation Monte Carlo sampler: Highly efficient sampling from “expensive” distributions, Quant. Financ. 19(2) (2019), pp. 339–356.
  • I. Gyöngy, Mimicking the one-dimensional marginal distribution of process having an Itô differential, Probab. Theory. Relat. Fields. 71 (1986), pp. 501–516.
  • P. Hagan, D. Kumar, A. Leśniewski, and D. Woodward, Managing smile risk. Wilmott Magazine, 2002, pp. 84–108.
  • D. Hobson, P. Laurence, and T. Wang, Static-arbitrage upper bounds for the prices of basket options, Quant. Financ. 5(4) (2005), pp. 329–342.
  • S. Kou, A jump diffusion model for option pricing, Manage. Sci. 48 (2002), pp. 1086–1101.
  • A. Langnau, Introduction into “local correlation modelling” (2009). Available at arXiv preprint arXiv:0909.3441 .
  • A. Langnau, A dynamic model for correlation, Risk 23(4) (2010), pp. 74.
  • A. Langnau and D. Cangemi, Marking systemic portfolio risk with the Merton model, Risk 24(7) (2011), pp. 68.
  • D. Linders and W. Schoutens, A framework for robust measurement of implied correlation, J. Comput. Appl. Math. 271 (2014), pp. 39–52.
  • D. Linders and B. Stassen, The multivariate variance gamma model: Basket option pricing and calibration, Quant. Financ. 16(4) (2016), pp. 555–572.
  • S. Liu, L.A. Grzelak, and C.W. Oosterlee, The seven-league scheme: Deep learning for large time step Monte Carlo simulations of stochastic differential equations, Risks 10(3) (2022).
  • V. Lucic, Correlation skew via product copula. Global Derivatives Conference, 2013.
  • I. Lujan, Pricing the correlation skew with normal mean–variance mixture copulas, J. Comput. Financ.26(2) (2022), pp. 83–99.
  • R.C. Merton, Option pricing when underlying stock returns are discontinuous, J. Financ. Econ. 3(1–2) (1976), pp. 125–144.
  • C.W. Oosterlee and L.A. Grzelak, Mathematical Modeling and Computation in Finance, World Scientific, London, 2019.
  • A. Reghai, Breaking correlation breaks, Risk (2010), pp. 90–95.
  • H.C. Robert and T.M. William, The orthogonal development of nonlinear functionals in series of Fourier–Hermite functionals, Ann. Math. 48(2) (1947), pp. 385–392.
  • A.W. vd Stoep, L.A. Grzelak, and C.W. Oosterlee, Collocating volatility: A competitive alternative to stochastic local volatility models, IJTAF 23(6) (2020).
  • V. Zetocha, Correlation skew via stochastic correlation and jumps, Risk 28(12) (2015), pp. 1–6.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.