Exponential integrability properties of Euler discretization schemes for the Cox-Ingersoll-Ross process

arXiv: Computational Finance Pub Date : 2015-12-17 DOI:10.3934/DCDSB.2016101
A. Cozma, C. Reisinger
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引用次数: 13

Abstract

We analyze exponential integrability properties of the Cox-Ingersoll-Ross (CIR) process and its Euler discretizations with various types of truncation and reflection at 0. These properties play a key role in establishing the finiteness of moments and the strong convergence of numerical approximations for a class of stochastic differential equations arising in finance. We prove that both implicit and explicit Euler-Maruyama discretizations for the CIR process preserve the exponential integrability of the exact solution for a wide range of parameters, and find lower bounds on the explosion time.
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Cox-Ingersoll-Ross过程欧拉离散格式的指数可积性
本文分析了Cox-Ingersoll-Ross (CIR)过程的指数可积性及其在0处具有各种截断和反射的欧拉离散化。这些性质对于建立金融学中一类随机微分方程的矩有限性和数值近似的强收敛性起着关键作用。证明了CIR过程的隐式和显式Euler-Maruyama离散化在大范围参数下保持了精确解的指数可积性,并找到了爆炸时间的下界。
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arXiv: Computational Finance
arXiv: Computational Finance
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