Spectral Method for the Black-Scholes Model of American Options Valuation

Abstract: In this paper, we devote ourselves to the research of numerical methods for American option pricing problems under the Black-Scholes model. The optimal exercise boundary which satisfies a nonlinear Volterra integral equation is resolved by a high-order collocation method based on graded meshes. For the other spatial domain boundary, an artificial boundary condition is applied to the pricing problem for the effective truncation of the semi-infinite domain. Then, the front-fixing and stretching transformations a… Show more

“…We compared results from our PCFEM with results from two other methods -viz. the Chebyshev spectral method (CPSM) [23] and the front-fixing finite element method (FFEM) [10].…”

“…Numerical methods for American options have attracted increasing interest, and are mainly of two types -viz. the Monte Carlo method [6,19,22] and the partial differential equation (PDE) method [1,9,10,14,20,23,27]. The Monte Carlo method has a high computational cost due to its slow convergence, and in this article we pursue the famous Black-Scholes PDE approach, which is widely regarded as one of most effective [7,11,15].…”

“…[14,15] discuss relevant convergence analysis. To improve the solution precision, finite element and spectral methods have received more attention recently [1,10,23,27]). One may refer to Ref.…”

Projection and Contraction Method for the Valuation of American Options

“…We compared results from our PCFEM with results from two other methods -viz. the Chebyshev spectral method (CPSM) [23] and the front-fixing finite element method (FFEM) [10].…”

“…Numerical methods for American options have attracted increasing interest, and are mainly of two types -viz. the Monte Carlo method [6,19,22] and the partial differential equation (PDE) method [1,9,10,14,20,23,27]. The Monte Carlo method has a high computational cost due to its slow convergence, and in this article we pursue the famous Black-Scholes PDE approach, which is widely regarded as one of most effective [7,11,15].…”

“…[14,15] discuss relevant convergence analysis. To improve the solution precision, finite element and spectral methods have received more attention recently [1,10,23,27]). One may refer to Ref.…”

Projection and Contraction Method for the Valuation of American Options

“…Therefore, efficient numerical algorithms are essential for pricing American multi-asset options accurately. Recently, PDE discretization methods such as the finite difference method (Company et al 2016a, b;Zhou and Gao 2016), the finite element method , the finite volume method , the spectral method (Song et al 2014) and so on attracted the attention of practitioners and academics. Therefore, there emerged a large number of numerical algorithms, which could be divided into two categories-the penalty method (Kovalov et al 2007;Lei et al 2017;Zvan et al 1998) and the variational inequality method (Huang and Pang 2003;Hager et al 2010).…”

An efficient numerical method for the valuation of American multi-asset options

Stability and Error Analysis of Operator Splitting Methods for American Options Under the Black–Scholes Model