通过优化过程实现离散熵不等式

N. Aguillon, Emmanuel Audusse, Vivien Desveaux, Julien Salomon
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引用次数: 0

摘要

双曲系统的解可能包含不连续性。这些弱解不仅验证了原始的 PDE,还验证了熵不等式,该不等式是确定不连续性是否物理的选择标准。在数值近似求解时,获得这些熵不等式的离散版本对于避免收敛到非物理解甚至不稳定性至关重要。然而,对于阶数为 2 或更高的方案来说,这样的任务即使不是不可能,一般也很困难。在本文中,我们引入了一个优化框架,使我们能够对给定方案在空间和时间上的熵的减少或增加进行事后量化。我们用它来获得数值扩散图,并证明某些方案不存在离散熵不等式。我们特别关注了广泛使用的二阶 MUSCL 方案,目前几乎还没有关于该方案的理论结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Discrete entropy inequalities via an optimization process
The solutions of hyperbolic systems may contain discontinuities. These weak solutions verify not only the original PDEs, but also an entropy inequality that acts as a selection criterion determining whether a discontinuity is physical or not. Obtaining a discrete version of these entropy inequalities when approximating the solutions numerically is crucial to avoid convergence to unphysical solutions or even unstability. However such a task is difficult in general, if not impossible for schemes of order 2 or more. In this paper, we introduce an optimization framework that enables us to quantify a posteriori the decrease or increase of entropy of a given scheme, locally in space and time. We use it to obtain maps of numerical diffusion and to prove that some schemes do not have a discrete entropy inequality. A special attention is devoted to the widely used second order MUSCL scheme for which almost no theoretical results are known.
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