Convergence analysis of a simplified scheme for stochastic Burgers’ equation with additive noise

IF 1.4 Q2 MATHEMATICS, APPLIED Results in Applied Mathematics Pub Date : 2024-08-01 DOI:10.1016/j.rinam.2024.100482

Feroz Khan , Suliman Khan , Muhammad Zahid Mughal , Feredj Ommar

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Abstract

The aim of this article is to probe the convergence analysis of an efficient scheme, developed by Jentzen et al. (2011), for the stochastic Burgers’ equation (SBE) with term of additive noise. Although, the same scheme was used by Blomker et al. (2013) to carry out the full discretization of the SBE. But therein, Taylor series was not applied. In this work, Taylor series in integral form with remainder after one term is applied. As a consequence, minimum convergence order in time is updated to $3 θ$ from $θ$ , where $θ \in (0, \frac{1}{2})$ . Although, minimum temporal convergence order is proved to be as $2 θ$ by Khan (2021) using the higher order scheme. But the proposed scheme is simple in a manner that former uses two linear functionals of noise, whereas later employs single linear functional of noise. Finally, run time of the existing and the proposed scheme are compared to justify the analytical outcomes.

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具有加性噪声的随机布尔格斯方程简化方案的收敛性分析

本文的目的是探究 Jentzen 等人（2011 年）针对带有加性噪声项的随机布尔格斯方程（SBE）所开发的高效方案的收敛性分析。尽管 Blomker 等人（2013 年）使用了相同的方案对 SBE 进行了完全离散化。但其中并未应用泰勒级数。在本研究中，采用了带余项的积分形式泰勒级数。因此，最小时间收敛阶数从θ更新为 3θ，其中θ∈(0,12)。尽管 Khan（2021 年）使用高阶方案证明最小时间收敛阶数为 2θ。但拟议方案的简单之处在于，前者使用两个线性噪声函数，而后者使用单个线性噪声函数。最后，比较了现有方案和建议方案的运行时间，以证明分析结果的合理性。

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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