Collocation methods for nonlinear differential equations on low-rank manifolds

IF 1 3区 数学 Q1 MATHEMATICS
Alec Dektor
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引用次数: 0

Abstract

We introduce new methods for integrating nonlinear differential equations on low-rank manifolds. These methods rely on interpolatory projections onto the tangent space, enabling low-rank time integration of vector fields that can be evaluated entry-wise. A key advantage of our approach is that it does not require the vector field to exhibit low-rank structure, thereby overcoming significant limitations of traditional dynamical low-rank methods based on orthogonal projection. To construct the interpolatory projectors, we develop a sparse tensor sampling algorithm based on the discrete empirical interpolation method (DEIM) that parameterizes tensor train manifolds and their tangent spaces with cross interpolation. Using these projectors, we propose two time integration schemes on low-rank tensor train manifolds. The first scheme integrates the solution at selected interpolation indices and constructs the solution with cross interpolation. The second scheme generalizes the well-known orthogonal projector-splitting integrator to interpolatory projectors. We demonstrate the proposed methods with applications to several tensor differential equations arising from the discretization of partial differential equations.
低阶流形上非线性微分方程的配位方法
我们介绍了在低阶流形上积分非线性微分方程的新方法。这些方法依赖于对切线空间的内插投影,从而实现了可按入口进行评估的向量场的低阶时间积分。我们的方法的一个关键优势是,它不要求向量场表现出低秩结构,从而克服了基于正交投影的传统动态低秩方法的重大局限。为了构建插值投影,我们开发了一种基于离散经验插值法(DEIM)的稀疏张量采样算法,通过交叉插值对张量列车流形及其切空间进行参数化。利用这些投影,我们提出了低阶张量列车流形的两种时间积分方案。第一种方案在选定的插值指数上积分求解,并通过交叉插值构建求解。第二种方案将众所周知的正交投影器分割积分器推广到插值投影器。我们将所提出的方法应用于偏微分方程离散化过程中产生的几个张量微分方程。
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来源期刊
CiteScore
2.20
自引率
9.10%
发文量
333
审稿时长
13.8 months
期刊介绍: Linear Algebra and its Applications publishes articles that contribute new information or new insights to matrix theory and finite dimensional linear algebra in their algebraic, arithmetic, combinatorial, geometric, or numerical aspects. It also publishes articles that give significant applications of matrix theory or linear algebra to other branches of mathematics and to other sciences. Articles that provide new information or perspectives on the historical development of matrix theory and linear algebra are also welcome. Expository articles which can serve as an introduction to a subject for workers in related areas and which bring one to the frontiers of research are encouraged. Reviews of books are published occasionally as are conference reports that provide an historical record of major meetings on matrix theory and linear algebra.
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