A semi‐Lagrangian ε$$ \varepsilon $$‐monotone Fourier method for continuous withdrawal GMWBs under jump‐diffusion with stochastic interest rate

IF 2.1 3区数学 Q1 MATHEMATICS, APPLIED Numerical Methods for Partial Differential Equations Pub Date : 2023-10-19 DOI:10.1002/num.23075

Yaowen Lu, Duy‐Minh Dang

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Abstract

Abstract We develop an efficient pricing approach for guaranteed minimum withdrawal benefits (GMWBs) with continuous withdrawals under a realistic modeling setting with jump‐diffusions and stochastic interest rate. Utilizing an impulse stochastic control framework, we formulate the no‐arbitrage GMWB pricing problem as a time‐dependent Hamilton‐Jacobi‐Bellman (HJB) Quasi‐Variational Inequality (QVI) having three spatial dimensions with cross derivative terms. Through a novel numerical approach built upon a combination of a semi‐Lagrangian method and the Green's function of an associated linear partial integro‐differential equation, we develop an ‐monotone Fourier pricing method, where is a monotonicity tolerance. Together with a provable strong comparison result for the HJB‐QVI, we mathematically demonstrate convergence of the proposed scheme to the viscosity solution of the HJB‐QVI as . We present a comprehensive study of the impact of simultaneously considering jumps in the subaccount process and stochastic interest rate on the no‐arbitrage prices and fair insurance fees of GMWBs, as well as on the holder's optimal withdrawal behaviors.

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随机利率跳跃扩散下连续提取GMWBs的半拉格朗日ε $$ \varepsilon $$单调傅立叶方法

在具有跳跃扩散和随机利率的现实建模设置下，我们开发了一种有效的连续提取保证最小提取收益(GMWBs)的定价方法。利用脉冲随机控制框架，我们将无套利GMWB定价问题表述为具有三维空间的具有交叉导数项的时变Hamilton - Jacobi - Bellman (HJB)拟变分不等式(QVI)。通过建立在半拉格朗日方法和相关线性偏积分微分方程的格林函数的组合上的一种新的数值方法，我们开发了一种单调傅里叶定价方法，其中是单调容忍的。结合HJB - QVI的一个可证明的强比较结果，我们从数学上证明了所提出的格式对HJB - QVI的粘度解的收敛性。我们全面研究了同时考虑子账户过程和随机利率的跳跃对GMWBs的无套利价格和公平保险费以及持有人的最优提现行为的影响。

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来源期刊

Numerical Methods for Partial Differential Equations 数学-应用数学

CiteScore

7.20

自引率

2.60%

发文量

审稿时长

9 months

期刊介绍： An international journal that aims to cover research into the development and analysis of new methods for the numerical solution of partial differential equations, it is intended that it be readily readable by and directed to a broad spectrum of researchers into numerical methods for partial differential equations throughout science and engineering. The numerical methods and techniques themselves are emphasized rather than the specific applications. The Journal seeks to be interdisciplinary, while retaining the common thread of applied numerical analysis.