On sparse grid interpolation for American option pricing with multiple underlying assets

IF 2.6 2区数学 Q1 MATHEMATICS, APPLIED Journal of Computational and Applied Mathematics Pub Date : 2025-08-15 Epub Date: 2025-01-31 DOI:10.1016/j.cam.2025.116544

Jiefei Yang, Guanglian Li

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Abstract

In this work, we develop a novel efficient quadrature and sparse grid based polynomial interpolation method to price American options with multiple underlying assets. The approach is based on first formulating the pricing of American options using dynamic programming, and then employing static sparse grids to interpolate the continuation value function at each time step. To achieve high efficiency, we first transform the domain from

R^{d}

{(- 1, 1)}^{d}

via a scaled tanh map, and then remove the boundary singularity of the resulting multivariate function over

{(- 1, 1)}^{d}

by a bubble function and simultaneously, to significantly reduce the number of interpolation points. We rigorously establish that with a proper choice of the bubble function, the resulting function has bounded mixed derivatives up to a certain order, which provides theoretical underpinnings for the use of sparse grids. Numerical experiments for American arithmetic and geometric basket put options with the number of underlying assets up to 16 are presented to validate the effectiveness of our approach.

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多标的资产美式期权定价的稀疏网格插值

在这项工作中，我们开发了一种新的高效的基于正交和稀疏网格的多项式插值方法，用于具有多个标的资产的美式期权定价。该方法首先利用动态规划方法制定美式期权的定价，然后利用静态稀疏网格在每个时间步上插值连续值函数。为了提高效率，我们首先通过缩放tanh映射将域从Rd变换到（−1,1）d，然后通过气泡函数去除（−1,1）d上多元函数的边界奇异性，同时显著减少插值点的数量。我们严格地建立了气泡函数的合理选择，得到的函数具有一定阶的有界混合导数，为稀疏网格的使用提供了理论基础。以美国算术和几何篮子看跌期权为例进行了数值实验，其中标的资产最多为16个，以验证我们方法的有效性。

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来源期刊

Journal of Computational and Applied Mathematics 数学-应用数学

CiteScore

5.40

自引率

4.20%

发文量

437

审稿时长

3.0 months

期刊介绍： The Journal of Computational and Applied Mathematics publishes original papers of high scientific value in all areas of computational and applied mathematics. The main interest of the Journal is in papers that describe and analyze new computational techniques for solving scientific or engineering problems. Also the improved analysis, including the effectiveness and applicability, of existing methods and algorithms is of importance. The computational efficiency (e.g. the convergence, stability, accuracy, ...) should be proved and illustrated by nontrivial numerical examples. Papers describing only variants of existing methods, without adding significant new computational properties are not of interest. The audience consists of: applied mathematicians, numerical analysts, computational scientists and engineers.