一类耗散系统的均匀精确数值方法

Math. Comput. Model. Pub Date : 2021-04-01 DOI:10.1090/mcom/3688

P. Chartier, M. Lemou, Léopold Trémant

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引用次数: 1

摘要

我们考虑了一类混合慢速和快速变化的松弛问题，这些松弛问题可以描述具有变化刚度(从非刚性到强耗散)的种群动力学模型或双曲系统，并通过将该问题分解为原始刚度被破坏的微观-宏观系统，开发了一种多尺度方法。我们证明了这个新问题可以用标准的显式数值格式以统一的精度进行模拟。换句话说，可以用与刚度无关的成本(即均匀成本)来解决微观-宏观问题，从而使误差也是均匀的。该方法成功地应用于两个具有和不具有非线性的双曲系统，并证明该方法可以避免阶降现象。

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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A uniformly accurate numerical method for a class of dissipative systems

We consider a class of relaxation problems mixing slow and fast variations which can describe population dynamics models or hyperbolic systems, with varying stiffness (from non-stiff to strongly dissipative), and develop a multi-scale method by decomposing this problem into a micro-macro system where the original stiffness is broken. We show that this new problem can therefore be simulated with a uniform order of accuracy using standard explicit numerical schemes. In other words, it is possible to solve the micro-macro problem with a cost independent of the stiffness (a.k.a. uniform cost), such that the error is also uniform. This method is successfully applied to two hyperbolic systems with and without non-linearities, and is shown to circumvent the phenomenon of order reduction.

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Math. Comput. Model.

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