{"title":"赫尔与怀特随机波动模型的精确模拟","authors":"Riccardo Brignone , Luca Gonzato","doi":"10.1016/j.jedc.2024.104861","DOIUrl":null,"url":null,"abstract":"<div><p>We show how to simulate exactly the asset price and the variance under the Hull and White stochastic volatility model. We derive analytical formulas for the Laplace transform of the time integral of volatility conditional on the variance level at the endpoint of the time interval and the Laplace transform of integrated variance conditional on both integrated volatility and variance. Based on these results, we simulate the model through a nested-conditional factorization approach, where Laplace transforms are inverted through the (conditional) Fourier-cosine (COS) method. Under this model, our approach can be used to generate unbiased estimates for the price of derivatives instruments. We propose some variants of the exact simulation scheme for computing unbiased estimates of option prices and sensitivities, a difficult task in the Hull and White model. These variants also allow for a significant reduction in the Monte Carlo simulation estimator's variance (around 93-98%) and the computing time (around 22%) when pricing options. The performances of the proposed algorithms are compared with various benchmarks. 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We derive analytical formulas for the Laplace transform of the time integral of volatility conditional on the variance level at the endpoint of the time interval and the Laplace transform of integrated variance conditional on both integrated volatility and variance. Based on these results, we simulate the model through a nested-conditional factorization approach, where Laplace transforms are inverted through the (conditional) Fourier-cosine (COS) method. Under this model, our approach can be used to generate unbiased estimates for the price of derivatives instruments. We propose some variants of the exact simulation scheme for computing unbiased estimates of option prices and sensitivities, a difficult task in the Hull and White model. These variants also allow for a significant reduction in the Monte Carlo simulation estimator's variance (around 93-98%) and the computing time (around 22%) when pricing options. 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引用次数: 0
摘要
我们展示了如何精确模拟赫尔和怀特随机波动模型下的资产价格和方差。我们推导出了以时间区间端点方差水平为条件的波动率时间积分的拉普拉斯变换,以及以综合波动率和方差为条件的综合方差的拉普拉斯变换的解析公式。基于这些结果,我们通过嵌套条件因式分解方法对模型进行模拟,其中拉普拉斯变换是通过(条件)傅立叶余弦(COS)方法反演的。在此模型下,我们的方法可用于生成衍生工具价格的无偏估计值。我们提出了精确模拟方案的一些变体,用于计算期权价格和敏感性的无偏估计值,这在赫尔和怀特模型中是一项艰巨的任务。在对期权进行定价时,这些变体还能显著减少蒙特卡罗模拟估计器的方差(约 93-98%)和计算时间(约 22%)。建议算法的性能与各种基准进行了比较。数值结果表明,我们的方法误差收敛速度更快,收敛速度达到 O(s-1/2),其中 s 是总计算预算,大大超过了基准。
Exact simulation of the Hull and White stochastic volatility model
We show how to simulate exactly the asset price and the variance under the Hull and White stochastic volatility model. We derive analytical formulas for the Laplace transform of the time integral of volatility conditional on the variance level at the endpoint of the time interval and the Laplace transform of integrated variance conditional on both integrated volatility and variance. Based on these results, we simulate the model through a nested-conditional factorization approach, where Laplace transforms are inverted through the (conditional) Fourier-cosine (COS) method. Under this model, our approach can be used to generate unbiased estimates for the price of derivatives instruments. We propose some variants of the exact simulation scheme for computing unbiased estimates of option prices and sensitivities, a difficult task in the Hull and White model. These variants also allow for a significant reduction in the Monte Carlo simulation estimator's variance (around 93-98%) and the computing time (around 22%) when pricing options. The performances of the proposed algorithms are compared with various benchmarks. Numerical results demonstrate the faster convergence rate of the error in our method, which achieves an convergence rate, where s is the total computational budget, largely outperforming the benchmark.
期刊介绍:
The journal provides an outlet for publication of research concerning all theoretical and empirical aspects of economic dynamics and control as well as the development and use of computational methods in economics and finance. Contributions regarding computational methods may include, but are not restricted to, artificial intelligence, databases, decision support systems, genetic algorithms, modelling languages, neural networks, numerical algorithms for optimization, control and equilibria, parallel computing and qualitative reasoning.
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