Structure-preserving reduced order model for cross-diffusion systems

Jad Dabaghi, Virginie Ehrlacher
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Abstract

In this work, we construct a structure-preserving Galerkin reduced-order model for the resolution of parametric cross-diffusion systems. Cross-diffusion systems are often used to model the evolution of the concentrations or volumic fractions of mixtures composed of different species, and can also be used in population dynamics (as for instance in the SKT system). These systems often read as nonlinear degenerated parabolic partial differential equations, the numerical resolutions of which are highly ex- pensive from a computational point of view. We are interested here in cross-diffusion systems which exhibit a so-called entropic structure, in the sense that they can be formally written as gradient flows of a certain entropy functional which is actually a Lyapunov functional of the system. In this work, we propose a new reduced-order modelling method, based on a reduced basis paradigm, for the resolution of parameter-dependent cross-diffusion systems. Our method preserves, at the level of the reduced-order model, the main mathematical properties of the continuous solution, namely mass conservation, non- negativeness, preservation of the volume-filling property and entropy-entropy dissipation relationship. The theoretical advantages of our approach are illustrated by several numerical experiments.
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交叉扩散系统的结构保持减阶模型
在这项工作中,我们为参数交叉扩散系统的解析构建了一个结构保留的 Galerkin 降阶模型。交叉扩散系统通常用于模拟由不同物种组成的混合物的浓度或体积分数的演变,也可用于种群动力学(如 SKT 系统)。这些系统通常被解读为非线性分解抛物线偏微分方程,从计算角度来看,其数值分辨率非常高。在此,我们对交叉扩散系统感兴趣,这些系统表现出所谓的熵结构,即它们可以被正式写成某个熵函数的梯度流,而这个熵函数实际上是系统的李亚普诺夫函数。在这项工作中,我们提出了一种基于还原基础范式的新的还原阶建模方法,用于解析参数相关的交叉扩散系统。我们的方法在降阶模型的层面上保留了连续解的主要数学特性,即质量守恒、非负性、体积填充特性和熵熵耗散关系。
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