Convergence of collocation methods for solving periodic boundary value problems for renewal equations defined through finite-dimensional boundary conditions
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引用次数: 5
Abstract
The problem of computing periodic solutions can be expressed as a boundary value problem and solved numerically via piecewise collocation. Here, we extend to renewal equations the corresponding method for retarded functional differential equations in (K. Engelborghs et al., SIAM J Sci Comput., 22 (2001), pp. 1593–1609). The theoretical proof of the convergence of the method has been recently provided in (A. Andò and D. Breda, SIAM J Numer Anal., 58 (2020), pp. 3010–3039) for retarded functional differential equations and in (A. Andò and D. Breda, submitted in 2021) for renewal equations and consists in both cases in applying the abstract framework in (S. Maset, Numer Math., 133 (2016), pp. 525–555) to a reformulation of the boundary value problem featuring an infinite-dimensional boundary condition. We show that, in the renewal case, the proof can also be carried out and even simplified when considering the standard formulation, defined by boundary conditions of finite dimension.
周期解的计算问题可以表示为边值问题,并通过分段配置的方法进行数值求解。在此,我们将(K. Engelborghs et al., SIAM J Sci computer)中迟滞泛函微分方程的相应方法推广到更新方程。, 22(2001),第1593-1609页)。该方法收敛性的理论证明最近已在(A. Andò和D. Breda, SIAM J number Anal)中提供。(A. Andò and D. Breda,提交于2021年)用于更新方程,并在这两种情况下应用(S. Maset, number Math)中的抽象框架。, 133 (2016), pp. 525-555)到具有无限维边界条件的边值问题的重新表述。我们证明,在更新的情况下,当考虑由有限维边界条件定义的标准公式时,证明也可以进行甚至简化。
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