时间分数阶Black-Scholes方程数值计算的稳定性和收敛性

IF 0.4 Q4 MATHEMATICS Journal of Mathematical Extension Pub Date : 2021-07-06 DOI:10.30495/JME.V15I0.1991

H. Mesgarani, Masod Bakhshandeh, Yones Esmaeelzade

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引用次数: 1

摘要

在本文中‎, ‎时间分数Black-Scholes模型（TFBSM）是在有限的特定域中讨论的，该域是该模板的时间导数‎ ‎是Caputo分数函数‎. ‎将关联分形传递方法的值方差应用于TFBSM的预测‎. ‎用于解决‎, ‎首先，通过使用具有时间$\tau^｛2-\alpha｝$阶精度的线性插值来获得半离散格式‎. ‎然后‎, ‎通过帮助近似空间导数项来收集完整方案‎ ‎关注第四形态的切比雪夫搭配体系‎. ‎最后‎, ‎通过执行能量过程来评估无条件稳定性和收敛阶‎. ‎作为此方法的实现‎, ‎‎ ‎据报道，TFBSM证明了所开发方案的准确性‎. ‎计算仿真和比较表明，该策略是准确有效的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The stability and convergence of the numerical computation for the temporal fractional Black–Scholes equation

In this paper‎, ‎the temporal fractional Black–Scholes model (TFBSM) is discussed in the limited specific domain which the time derivative of this template‎ ‎is the Caputo fractional function‎. ‎The value variance of the associated fractal transmission method was applied to forecast TFBSM‎. ‎For solving‎, ‎at first the semi-discrete scheme is obtained by using linear interpolation with a temporally $\tau^{2-\alpha}$ order accuracy‎. ‎Then‎, ‎the full scheme is collected by approximating the spatial derivative terms by helping‎ ‎the Chebyshev collocation system focused on the fourth form‎. ‎Finally‎, ‎the unconditional stability and convergence order is evaluated by performing the energy process‎. ‎As an implementation of this method‎, ‎two examples of the‎ ‎TFBSM was reported to demonstrate the accuracy of the developed scheme‎. ‎Calculation simulation and comparison show that the suggested strategy is very accurate and effective.

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Journal of Mathematical Extension MATHEMATICS-

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24 weeks