时变单因素模型中的美式期权:半解析定价、数值方法和ML支持

Andrey Itkin, Dmitry Muravey
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摘要

[Carr, Itkin, 2020]提出了基于时间依赖的ornstein - uhlenbeck模型的美式期权半解析定价。结果表明,要获得这些价格,需要(数值)求解第二类非线性volterra积分方程,以找到运动边界(仅是时间的函数)。一旦这样做了,期权价格就会随之变化。计算结果表明,该方法与正演有限差分法一样有效,同时具有更好的精度和稳定性。后来,这种被称为“广义积分变换”的方法被作者(也与彼得·卡尔和亚历克斯·利普顿合作)显著地扩展到各种时间相关的单因素和随机波动模型,以应用于定价障碍期权。然而,对于美国的选择,尽管有可能,但这在任何地方都没有明确报道。在本文中,我们的目标是填补这一空白,并讨论哪种数值方法(包括机器学习中的数值方法)可以有效地求解相应的Volterra积分方程。
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American options in time-dependent one-factor models: Semi-analytic pricing, numerical methods and ML support
Semi-analytical pricing of American options in a time-dependent Ornstein-Uhlenbeck model was presented in [Carr, Itkin, 2020]. It was shown that to obtain these prices one needs to solve (numerically) a nonlinear Volterra integral equation of the second kind to find the exercise boundary (which is a function of the time only). Once this is done, the option prices follow. It was also shown that computationally this method is as efficient as the forward finite difference solver while providing better accuracy and stability. Later this approach called "the Generalized Integral transform" method has been significantly extended by the authors (also, in cooperation with Peter Carr and Alex Lipton) to various time-dependent one factor, and stochastic volatility models as applied to pricing barrier options. However, for American options, despite possible, this was not explicitly reported anywhere. In this paper our goal is to fill this gap and also discuss which numerical method (including those in machine learning) could be efficient to solve the corresponding Volterra integral equations.
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