多因素奥恩斯坦-乌伦贝克驱动随机波动模型的精确模拟

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Riccardo Brignone
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引用次数: 0

摘要

SIAM 科学计算期刊》,第 46 卷第 3 期,第 A1441-A1460 页,2024 年 6 月。摘要.Ornstein-Uhlenbeck 驱动的随机波动模型的经典精确模拟方案是为单波动因子情况设计的。将其扩展到多因子情况下会导致程序繁琐,需要对拉普拉斯变换进行多次数值反演,然后通过数值方法进行随机抽样,因此运行速度非常慢。此外,对于每个波动因子,误差都由两个参数控制,因此很难控制偏差。在本文中,我们针对多因子奥恩斯坦-乌伦贝克驱动随机波动模型提出了一种新的精确模拟方案,该方案更易于实施,运行速度更快,并能更好地控制误差,与现有方法相比,无论波动因子的数量如何,误差都只由一个参数控制。数值结果表明,当考虑一个波动因子时,拟议方法比原始方法快三倍;当考虑四个波动因子时,拟议方法比原始方法快 11 倍,同时在理论上仍然是精确的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exact Simulation of the Multifactor Ornstein–Uhlenbeck Driven Stochastic Volatility Model
SIAM Journal on Scientific Computing, Volume 46, Issue 3, Page A1441-A1460, June 2024.
Abstract.The classic exact simulation scheme for the Ornstein–Uhlenbeck driven stochastic volatility model is designed for the single volatility factor case. Extension to the multifactor case results in a cumbersome procedure requiring multiple numerical inversions of Laplace transforms and subsequent random sampling through numerical methods, resulting in it being perceptively slow to run. Moreover, for each volatility factor, the error is controlled by two parameters, ensuring difficult control of the bias. In this paper, we propose a new exact simulation scheme for the multifactor Ornstein–Uhlenbeck driven stochastic volatility model that is easier to implement, faster to run, and allows for an improved control of the error, which, in contrast to the existing method, is controlled by only one parameter, regardless of the number of volatility factors. Numerical results show that the proposed approach is three times faster than the original approach when one volatility factor is considered and 11 times faster when four volatility factors are considered, while still being theoretically exact.
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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