High Order Numerical Homogenization for Dissipative Ordinary Differential Equations

Zeyu Jin, Ruo Li
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Abstract

We propose a high order numerical homogenization method for dissipative ordinary differential equations (ODEs) containing two time scales. Essentially, only first order homogenized model globally in time can be derived. To achieve a high order method, we have to adopt a numerical approach in the framework of the heterogeneous multiscale method (HMM). By a successively refined microscopic solver, the accuracy improvement up to arbitrary order is attained providing input data smooth enough. Based on the formulation of the high order microscopic solver we derived, an iterative formula to calculate the microscopic solver is then proposed. Using the iterative formula, we develop an implementation to the method in an efficient way for practical applications. Several numerical examples are presented to validate the new models and numerical methods.
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耗散常微分方程的高阶数值均匀化
本文提出了含两个时间尺度的耗散常微分方程的高阶数值均匀化方法。本质上,只能导出全局一阶均匀化模型。为了实现高阶方法,我们必须在非均质多尺度方法(HMM)的框架下采用数值方法。在保证输入数据足够平滑的情况下,通过逐次细化的微观求解器,实现了精度提高到任意阶。在导出高阶微观解的基础上,提出了计算高阶微观解的迭代公式。利用迭代公式,我们开发了一种有效的方法来实现该方法的实际应用。算例验证了新模型和数值方法的有效性。
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