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Faber-Schauder Wavelet Sparse Grid Approach for Option Pricing with Transactions Cost

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  • Shu-Li Mei

Abstract

Transforming the nonlinear Black-Scholes equation into the diffusion PDE by introducing the log transform of S and can provide the most stable platform within which option prices can be evaluated. The space jump that appeared in the transformation model is suitable to be solved by the sparse grid approach. An adaptive sparse approximation solution of the nonlinear second-order PDEs was constructed using Faber-Schauder wavelet function and the corresponding multiscale analysis theory. First, we construct the multiscale wavelet interpolation operator based on the definition of interpolation wavelet theory. The operator can be used to discretize the weak solution function of the nonlinear second-order PDEs. Second, using the couple technique of the variational iteration method (VIM) and the precision integration method, the sparse approximation solution of the nonlinear partial differential equations can be obtained. The method is tested on three classical nonlinear option pricing models such as Leland model, Barles-Soner model, and risk adjusted pricing methodology. The solutions are compared with the finite difference method. The present results indicate that the method is competitive.

Suggested Citation

  • Shu-Li Mei, 2014. "Faber-Schauder Wavelet Sparse Grid Approach for Option Pricing with Transactions Cost," Abstract and Applied Analysis, Hindawi, vol. 2014, pages 1-9, April.
  • Handle: RePEc:hin:jnlaaa:168630
    DOI: 10.1155/2014/168630
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    Cited by:

    1. Khan Najeeb Alam & Razzaq Oyoon Abdul & Hameed Tooba, 2018. "A Metaheuristic Approach to Optimize European Call Function with Boundary Conditions," Journal of Systems Science and Information, De Gruyter, vol. 6(3), pages 260-268, June.

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