Equations with Infinite Delay: Pseudospectral Discretization for Numerical Stability and Bifurcation in an Abstract Framework

IF 2.8 2区 数学 Q1 MATHEMATICS, APPLIED SIAM Journal on Numerical Analysis Pub Date : 2024-07-25 DOI:10.1137/23m1581133
Francesca Scarabel, Rossana Vermiglio
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Abstract

SIAM Journal on Numerical Analysis, Volume 62, Issue 4, Page 1736-1758, August 2024.
Abstract. We consider nonlinear delay differential and renewal equations with infinite delay. We extend the work of Gyllenberg et al. [Appl. Math. Comput., 333 (2018), pp. 490–505] by introducing a unifying abstract framework, and we derive a finite-dimensional approximating system via pseudospectral discretization. For renewal equations, we consider a reformulation in the space of absolutely continuous functions via integration. We prove the one-to-one correspondence of equilibria between the original equation and its approximation, and that linearization and discretization commute. Our most important result is the proof of convergence of the characteristic roots of the pseudospectral approximation of the linear(ized) equations when the collocation nodes are chosen as the family of scaled zeros or extrema of Laguerre polynomials. This ensures that the finite-dimensional system correctly reproduces the stability properties of the original linear equation if the dimension of the approximation is large enough. The result is illustrated with several numerical tests, which also demonstrate the effectiveness of the approach for the bifurcation analysis of equilibria of nonlinear equations. The new approach used to prove convergence also provides the exact location of the spectrum of the differentiation matrices for the Laguerre zeros and extrema, adding new insights into properties that are important in the numerical solution of differential equations by pseudospectral methods.
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无限延迟方程:在抽象框架中实现数值稳定性和分岔的伪谱离散化
SIAM 数值分析期刊》第 62 卷第 4 期第 1736-1758 页,2024 年 8 月。 摘要。我们考虑具有无限延迟的非线性延迟微分方程和更新方程。我们扩展了 Gyllenberg 等人的工作[Appl. Math. Comput., 333 (2018), pp.对于更新方程,我们考虑通过积分在绝对连续函数空间中重新表述。我们证明了原始方程与其近似方程之间的一一对应平衡点,以及线性化与离散化的换向。我们最重要的结果是证明了当配位节点选择为拉盖尔多项式的缩放零点或极值族时,线性化(化)方程的伪谱近似的特征根收敛。如果近似的维数足够大,就能确保有限维系统正确再现原始线性方程的稳定性。该结果通过几个数值测试进行了说明,这些测试也证明了该方法在非线性方程平衡点分岔分析中的有效性。用于证明收敛性的新方法还提供了拉盖尔零点和极值微分矩阵频谱的精确位置,为利用伪频谱方法数值求解微分方程的重要特性增添了新的见解。
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来源期刊
CiteScore
4.80
自引率
6.90%
发文量
110
审稿时长
4-8 weeks
期刊介绍: SIAM Journal on Numerical Analysis (SINUM) contains research articles on the development and analysis of numerical methods. Topics include the rigorous study of convergence of algorithms, their accuracy, their stability, and their computational complexity. Also included are results in mathematical analysis that contribute to algorithm analysis, and computational results that demonstrate algorithm behavior and applicability.
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